src/f32-spmm/wasmsimd-pipelined.c.in - platform/external/XNNPACK - Gitiles

 // Copyright 2020 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.

 $assert MR % 4 == 0
 $ABC = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ"
 #include <assert.h>

 #include <wasm_simd128.h>

 #include <xnnpack/spmm.h>

 $ARCH_SUFFIX = "_x86" if X86 else "_arm"

 void xnn_f32_spmm_minmax_ukernel_${MR}x${NR}__wasmsimd${ARCH_SUFFIX}_pipelined${"_x" + str(UNROLL) if UNROLL > 1 else ""}(
     size_t mc,
     size_t nc,
     const float*restrict input,
     const float*restrict weights,
     const int32_t*restrict widx_dmap,
     const uint32_t*restrict nidx_nnzmap,
     float*restrict output,
     size_t output_stride,
     const union xnn_f32_minmax_params params[restrict XNN_MIN_ELEMENTS(1)])
 {
   assert(mc != 0);
   assert(mc % sizeof(float) == 0);
   assert(nc != 0);

   const v128_t vmin = wasm_v128_load32_splat(&params->scalar.min);
   const v128_t vmax = wasm_v128_load32_splat(&params->scalar.max);
   size_t output_decrement = output_stride * nc - ${MR} * sizeof(float);
   while XNN_LIKELY(mc >= ${MR} * sizeof(float)) {
     const float*restrict w = weights;
     const int32_t* dmap = widx_dmap;
     const uint32_t* nnzmap = nidx_nnzmap;
     v128_t vw = wasm_v128_load32_splat(w); w += 1;
     intptr_t diff = *dmap++;
     $for M in range(0, MR, 4):
       v128_t vi${ABC[M:M+4]} = wasm_v128_load(input + ${M});
     size_t n = nc;
     do {
       uint32_t nnz = *nnzmap++;
        $for M in range(0, MR, 4):
         v128_t vacc${ABC[M:M+4]} = vw;
       vw = wasm_v128_load32_splat(w); w += 1;

       $if UNROLL > 1:
         for (; nnz >= ${UNROLL}; nnz -= ${UNROLL}) {
           $for K in range(0, UNROLL):
             $for M in range(0, MR, 4):
               vacc${ABC[M:M+4]} = wasm_f32x4_add(vacc${ABC[M:M+4]}, wasm_f32x4_mul(vi${ABC[M:M+4]},   vw));
             input = (const float*restrict) ((uintptr_t) input + (uintptr_t) diff);
             diff = *dmap++;
             vw = wasm_v128_load32_splat(w); w += 1;
             $for M in range(0, MR, 4):
               vi${ABC[M:M+4]} = wasm_v128_load(input + ${M});
         }

       if XNN_LIKELY(nnz != 0) {
         do {
           $for M in range(0, MR, 4):
             vacc${ABC[M:M+4]} = wasm_f32x4_add(vacc${ABC[M:M+4]}, wasm_f32x4_mul(vi${ABC[M:M+4]}, vw));
           input = (const float*restrict) ((uintptr_t) input + (uintptr_t) diff);

           diff = *dmap++;
           vw = wasm_v128_load32_splat(w); w += 1;
           $for M in range(0, MR, 4):
             vi${ABC[M:M+4]} = wasm_v128_load(input + ${M});
         } while (--nnz != 0);
       }
       $if X86:
         $for M in range(0, MR, 4):
           v128_t vout${ABC[M:M+4]} = wasm_f32x4_pmin(vmax, vacc${ABC[M:M+4]});
         $for M in range(0, MR, 4):
           vout${ABC[M:M+4]} = wasm_f32x4_pmax(vmin, vout${ABC[M:M+4]});
       $else:
         $for M in range(0, MR, 4):
           v128_t vout${ABC[M:M+4]} = wasm_f32x4_min(vacc${ABC[M:M+4]}, vmax);
         $for M in range(0, MR, 4):
           vout${ABC[M:M+4]} = wasm_f32x4_max(vout${ABC[M:M+4]}, vmin);
       wasm_v128_store(output, vout0123);
       $for M in range(4, MR, 4):
         wasm_v128_store(output + ${M}, vout${ABC[M:M+4]});
       output = (float*restrict) ((uintptr_t) output + output_stride);
     } while (--n != 0);
     output = (float*restrict) ((uintptr_t) output - output_decrement);
     input += ${MR};
     mc -= ${MR} * sizeof(float);
   }
   if XNN_UNLIKELY(mc != 0) {
     $for LOG2M in reversed(range((MR - 1).bit_length())):
       $SUBMR = 1 << LOG2M
       $if SUBMR * 2 >= MR:
         output_decrement += ${MR - SUBMR} * sizeof(float);
       $else:
         output_decrement += ${SUBMR} * sizeof(float);
       if (mc & (${SUBMR} * sizeof(float))) {
         const float*restrict w = weights;
         const int32_t* dmap = widx_dmap;
         const uint32_t* nnzmap = nidx_nnzmap;
         size_t n = nc;
         do {
           uint32_t nnz = *nnzmap++;
           $if SUBMR == 1:
             v128_t vacc0 = wasm_v128_load32_splat(w); w += 1;
           $elif SUBMR == 2:
             v128_t vacc01 = wasm_v128_load32_splat(w); w += 1;
           $else:
             v128_t vacc0123 = wasm_v128_load32_splat(w); w += 1;
           $for M in range(4, SUBMR, 4):
             v128_t vacc${ABC[M:M+4]} = vacc0123;
           if XNN_LIKELY(nnz != 0) {
             do {
               const intptr_t diff = *dmap++;
               $if SUBMR >= 4:
                 const v128_t vi0123 = wasm_v128_load(input);
               $elif SUBMR == 2:
                 const v128_t vi01 = wasm_v128_load64_splat(input);
               $elif SUBMR == 1:
                 const v128_t vi0 = wasm_v128_load32_splat(input);
               $for M in range(4, SUBMR, 4):
                 const v128_t vi${ABC[M:M+4]} = wasm_v128_load(input + ${M});
               input = (const float*restrict) ((uintptr_t) input + (uintptr_t) diff);
               const v128_t vw = wasm_v128_load32_splat(w); w += 1;
               $if SUBMR == 1:
                 vacc${ABC[0]} = wasm_f32x4_add(vacc${ABC[0]}, wasm_f32x4_mul(vi${ABC[0]}, vw));
               $else:
                 $for M in range(0, SUBMR, 4):
                   vacc${ABC[M:min(M+4,SUBMR)]} = wasm_f32x4_add(vacc${ABC[M:min(M+4,SUBMR)]}, wasm_f32x4_mul(vi${ABC[M:min(M+4,SUBMR)]}, vw));
             } while (--nnz != 0);
           }
           $if SUBMR == 1:
             $if X86:
               v128_t vout${ABC[0]} = wasm_f32x4_pmin(vmax, vacc${ABC[0]});
               vout${ABC[0]} = wasm_f32x4_pmax(vmin, vout${ABC[0]});
             $else:
               v128_t vout${ABC[0]} = wasm_f32x4_min(vacc${ABC[0]}, vmax);
               vout${ABC[0]} = wasm_f32x4_max(vout${ABC[0]}, vmin);
           $else:
             $if X86:
               $for M in range(0, SUBMR, 4):
                 v128_t vout${ABC[M:min(M+4,SUBMR)]} = wasm_f32x4_pmin(vmax, vacc${ABC[M:min(M+4,SUBMR)]});
               $for M in range(0, SUBMR, 4):
                 vout${ABC[M:min(M+4,SUBMR)]} = wasm_f32x4_pmax(vmin, vout${ABC[M:min(M+4,SUBMR)]});
             $else:
               $for M in range(0, SUBMR, 4):
                 v128_t vout${ABC[M:min(M+4,SUBMR)]} = wasm_f32x4_min(vacc${ABC[M:min(M+4,SUBMR)]}, vmax);
               $for M in range(0, SUBMR, 4):
                 vout${ABC[M:min(M+4,SUBMR)]} = wasm_f32x4_max(vout${ABC[M:min(M+4,SUBMR)]}, vmin);
           $if SUBMR >= 4:
             wasm_v128_store(output, vout0123);
           $elif SUBMR == 2:
             *((double*) output) = wasm_f64x2_extract_lane(vout01, 0);
           $elif SUBMR == 1:
             *output = wasm_f32x4_extract_lane(vout0, 0);

           $for M in range(4, SUBMR, 4):
             wasm_v128_store(output + ${M}, vout${ABC[M:M+4]});
           output = (float*restrict) ((uintptr_t) output + output_stride);
         } while (--n != 0);
         output = (float*restrict) ((uintptr_t) output - output_decrement);
         input += ${SUBMR};
       }
   }
 }
	// Copyright 2020 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.

	$assert MR % 4 == 0
	$ABC = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ"
	#include <assert.h>

	#include <wasm_simd128.h>

	#include <xnnpack/spmm.h>

	$ARCH_SUFFIX = "_x86" if X86 else "_arm"

	void xnn_f32_spmm_minmax_ukernel_${MR}x${NR}__wasmsimd${ARCH_SUFFIX}_pipelined${"_x" + str(UNROLL) if UNROLL > 1 else ""}(
	size_t mc,
	size_t nc,
	const float*restrict input,
	const float*restrict weights,
	const int32_t*restrict widx_dmap,
	const uint32_t*restrict nidx_nnzmap,
	float*restrict output,
	size_t output_stride,
	const union xnn_f32_minmax_params params[restrict XNN_MIN_ELEMENTS(1)])
	{
	assert(mc != 0);
	assert(mc % sizeof(float) == 0);
	assert(nc != 0);

	const v128_t vmin = wasm_v128_load32_splat(&params->scalar.min);
	const v128_t vmax = wasm_v128_load32_splat(&params->scalar.max);
	size_t output_decrement = output_stride * nc - ${MR} * sizeof(float);
	while XNN_LIKELY(mc >= ${MR} * sizeof(float)) {
	const float*restrict w = weights;
	const int32_t* dmap = widx_dmap;
	const uint32_t* nnzmap = nidx_nnzmap;
	v128_t vw = wasm_v128_load32_splat(w); w += 1;
	intptr_t diff = *dmap++;
	$for M in range(0, MR, 4):
	v128_t vi${ABC[M:M+4]} = wasm_v128_load(input + ${M});
	size_t n = nc;
	do {
	uint32_t nnz = *nnzmap++;
	$for M in range(0, MR, 4):
	v128_t vacc${ABC[M:M+4]} = vw;
	vw = wasm_v128_load32_splat(w); w += 1;

	$if UNROLL > 1:
	for (; nnz >= ${UNROLL}; nnz -= ${UNROLL}) {
	$for K in range(0, UNROLL):
	$for M in range(0, MR, 4):
	vacc${ABC[M:M+4]} = wasm_f32x4_add(vacc${ABC[M:M+4]}, wasm_f32x4_mul(vi${ABC[M:M+4]}, vw));
	input = (const float*restrict) ((uintptr_t) input + (uintptr_t) diff);
	diff = *dmap++;
	vw = wasm_v128_load32_splat(w); w += 1;
	$for M in range(0, MR, 4):
	vi${ABC[M:M+4]} = wasm_v128_load(input + ${M});
	}

	if XNN_LIKELY(nnz != 0) {
	do {
	$for M in range(0, MR, 4):
	vacc${ABC[M:M+4]} = wasm_f32x4_add(vacc${ABC[M:M+4]}, wasm_f32x4_mul(vi${ABC[M:M+4]}, vw));
	input = (const float*restrict) ((uintptr_t) input + (uintptr_t) diff);

	diff = *dmap++;
	vw = wasm_v128_load32_splat(w); w += 1;
	$for M in range(0, MR, 4):
	vi${ABC[M:M+4]} = wasm_v128_load(input + ${M});
	} while (--nnz != 0);
	}
	$if X86:
	$for M in range(0, MR, 4):
	v128_t vout${ABC[M:M+4]} = wasm_f32x4_pmin(vmax, vacc${ABC[M:M+4]});
	$for M in range(0, MR, 4):
	vout${ABC[M:M+4]} = wasm_f32x4_pmax(vmin, vout${ABC[M:M+4]});
	$else:
	$for M in range(0, MR, 4):
	v128_t vout${ABC[M:M+4]} = wasm_f32x4_min(vacc${ABC[M:M+4]}, vmax);
	$for M in range(0, MR, 4):
	vout${ABC[M:M+4]} = wasm_f32x4_max(vout${ABC[M:M+4]}, vmin);
	wasm_v128_store(output, vout0123);
	$for M in range(4, MR, 4):
	wasm_v128_store(output + ${M}, vout${ABC[M:M+4]});
	output = (float*restrict) ((uintptr_t) output + output_stride);
	} while (--n != 0);
	output = (float*restrict) ((uintptr_t) output - output_decrement);
	input += ${MR};
	mc -= ${MR} * sizeof(float);
	}
	if XNN_UNLIKELY(mc != 0) {
	$for LOG2M in reversed(range((MR - 1).bit_length())):
	$SUBMR = 1 << LOG2M
	$if SUBMR * 2 >= MR:
	output_decrement += ${MR - SUBMR} * sizeof(float);
	$else:
	output_decrement += ${SUBMR} * sizeof(float);
	if (mc & (${SUBMR} * sizeof(float))) {
	const float*restrict w = weights;
	const int32_t* dmap = widx_dmap;
	const uint32_t* nnzmap = nidx_nnzmap;
	size_t n = nc;
	do {
	uint32_t nnz = *nnzmap++;
	$if SUBMR == 1:
	v128_t vacc0 = wasm_v128_load32_splat(w); w += 1;
	$elif SUBMR == 2:
	v128_t vacc01 = wasm_v128_load32_splat(w); w += 1;
	$else:
	v128_t vacc0123 = wasm_v128_load32_splat(w); w += 1;
	$for M in range(4, SUBMR, 4):
	v128_t vacc${ABC[M:M+4]} = vacc0123;
	if XNN_LIKELY(nnz != 0) {
	do {
	const intptr_t diff = *dmap++;
	$if SUBMR >= 4:
	const v128_t vi0123 = wasm_v128_load(input);
	$elif SUBMR == 2:
	const v128_t vi01 = wasm_v128_load64_splat(input);
	$elif SUBMR == 1:
	const v128_t vi0 = wasm_v128_load32_splat(input);
	$for M in range(4, SUBMR, 4):
	const v128_t vi${ABC[M:M+4]} = wasm_v128_load(input + ${M});
	input = (const float*restrict) ((uintptr_t) input + (uintptr_t) diff);
	const v128_t vw = wasm_v128_load32_splat(w); w += 1;
	$if SUBMR == 1:
	vacc${ABC[0]} = wasm_f32x4_add(vacc${ABC[0]}, wasm_f32x4_mul(vi${ABC[0]}, vw));
	$else:
	$for M in range(0, SUBMR, 4):
	vacc${ABC[M:min(M+4,SUBMR)]} = wasm_f32x4_add(vacc${ABC[M:min(M+4,SUBMR)]}, wasm_f32x4_mul(vi${ABC[M:min(M+4,SUBMR)]}, vw));
	} while (--nnz != 0);
	}
	$if SUBMR == 1:
	$if X86:
	v128_t vout${ABC[0]} = wasm_f32x4_pmin(vmax, vacc${ABC[0]});
	vout${ABC[0]} = wasm_f32x4_pmax(vmin, vout${ABC[0]});
	$else:
	v128_t vout${ABC[0]} = wasm_f32x4_min(vacc${ABC[0]}, vmax);
	vout${ABC[0]} = wasm_f32x4_max(vout${ABC[0]}, vmin);
	$else:
	$if X86:
	$for M in range(0, SUBMR, 4):
	v128_t vout${ABC[M:min(M+4,SUBMR)]} = wasm_f32x4_pmin(vmax, vacc${ABC[M:min(M+4,SUBMR)]});
	$for M in range(0, SUBMR, 4):
	vout${ABC[M:min(M+4,SUBMR)]} = wasm_f32x4_pmax(vmin, vout${ABC[M:min(M+4,SUBMR)]});
	$else:
	$for M in range(0, SUBMR, 4):
	v128_t vout${ABC[M:min(M+4,SUBMR)]} = wasm_f32x4_min(vacc${ABC[M:min(M+4,SUBMR)]}, vmax);
	$for M in range(0, SUBMR, 4):
	vout${ABC[M:min(M+4,SUBMR)]} = wasm_f32x4_max(vout${ABC[M:min(M+4,SUBMR)]}, vmin);
	$if SUBMR >= 4:
	wasm_v128_store(output, vout0123);
	$elif SUBMR == 2:
	((double) output) = wasm_f64x2_extract_lane(vout01, 0);
	$elif SUBMR == 1:
	*output = wasm_f32x4_extract_lane(vout0, 0);

	$for M in range(4, SUBMR, 4):
	wasm_v128_store(output + ${M}, vout${ABC[M:M+4]});
	output = (float*restrict) ((uintptr_t) output + output_stride);
	} while (--n != 0);
	output = (float*restrict) ((uintptr_t) output - output_decrement);
	input += ${SUBMR};
	}
	}
	}