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// Tencent is pleased to support the open source community by making ncnn available.
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// Copyright (C) 2020 THL A29 Limited, a Tencent company. All rights reserved.
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// Licensed under the BSD 3-Clause License (the "License"); you may not use this file except
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// in compliance with the License. You may obtain a copy of the License at
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// https://opensource.org/licenses/BSD-3-Clause
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// Unless required by applicable law or agreed to in writing, software distributed
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// under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR
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// CONDITIONS OF ANY KIND, either express or implied. See the License for the
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// specific language governing permissions and limitations under the License.
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#extension GL_EXT_shader_16bit_storage: require
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struct sfpvec8 { f16vec4 abcd; f16vec4 efgh; };
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#if NCNN_fp16_arithmetic
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#extension GL_EXT_shader_explicit_arithmetic_types_float16: require
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layout (constant_id = 0) const int upscale_factor = 0;
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layout (constant_id = 1) const int mode = 0;
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#define shape_constant_id_offset 2
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layout (constant_id = shape_constant_id_offset + 0) const int dims = 0;
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layout (constant_id = shape_constant_id_offset + 1) const int w = 0;
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layout (constant_id = shape_constant_id_offset + 2) const int h = 0;
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layout (constant_id = shape_constant_id_offset + 3) const int c = 0;
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layout (constant_id = shape_constant_id_offset + 4) const int cstep = 0;
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layout (constant_id = shape_constant_id_offset + 5) const int outdims = 0;
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layout (constant_id = shape_constant_id_offset + 6) const int outw = 0;
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layout (constant_id = shape_constant_id_offset + 7) const int outh = 0;
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layout (constant_id = shape_constant_id_offset + 8) const int outc = 0;
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layout (constant_id = shape_constant_id_offset + 9) const int outcstep = 0;
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layout (binding = 0) uniform unfp sampler3D bottom_blob;
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layout (binding = 1, imfmtc4) writeonly uniform unfp image3D top_blob;
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layout (binding = 0) readonly buffer bottom_blob { sfpvec2 bottom_blob_data[]; };
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layout (binding = 0) readonly buffer bottom_blob { sfp bottom_blob_data[]; };
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layout (binding = 1) writeonly buffer top_blob { sfpvec8 top_blob_data[]; };
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layout (push_constant) uniform parameter
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int gx = int(gl_GlobalInvocationID.x);
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int gy = int(gl_GlobalInvocationID.y);
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int gz = int(gl_GlobalInvocationID.z);
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if (gx >= psc(outw) || gy >= psc(outh) || gz >= psc(outc))
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ivec4 gz4 = gz * 8 + ivec4(0, 1, 2, 3);
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int x = gx / upscale_factor;
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int y = gy / upscale_factor;
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z4 = gz4 * upscale_factor * upscale_factor + (gy % upscale_factor) * upscale_factor + gx % upscale_factor;
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zz4 = gzz4 * upscale_factor * upscale_factor + (gy % upscale_factor) * upscale_factor + gx % upscale_factor;
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else // if (mode == 1)
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z4 = ((gy % upscale_factor) * upscale_factor + gx % upscale_factor) * psc(outc) * 8 + gz4;
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zz4 = ((gy % upscale_factor) * upscale_factor + gx % upscale_factor) * psc(outc) * 8 + gzz4;
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afpvec8 v0 = image3d_ld8(bottom_blob, ivec3(x, y, z4.r / 8));
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afpvec8 v1 = image3d_ld8(bottom_blob, ivec3(x, y, z4.g / 8));
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afpvec8 v2 = image3d_ld8(bottom_blob, ivec3(x, y, z4.b / 8));
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afpvec8 v3 = image3d_ld8(bottom_blob, ivec3(x, y, z4.a / 8));
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afpvec8 v4 = image3d_ld8(bottom_blob, ivec3(x, y, zz4.r / 8));
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afpvec8 v5 = image3d_ld8(bottom_blob, ivec3(x, y, zz4.g / 8));
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afpvec8 v6 = image3d_ld8(bottom_blob, ivec3(x, y, zz4.b / 8));
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afpvec8 v7 = image3d_ld8(bottom_blob, ivec3(x, y, zz4.a / 8));
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v[0].r = v0[(z4.r % 8) / 4][z4.r % 4];
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v[0].g = v1[(z4.g % 8) / 4][z4.g % 4];
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v[0].b = v2[(z4.b % 8) / 4][z4.b % 4];
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v[0].a = v3[(z4.a % 8) / 4][z4.a % 4];
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v[1].r = v4[(zz4.r % 8) / 4][zz4.r % 4];
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v[1].g = v5[(zz4.g % 8) / 4][zz4.g % 4];
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v[1].b = v6[(zz4.b % 8) / 4][zz4.b % 4];
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v[1].a = v7[(zz4.a % 8) / 4][zz4.a % 4];
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image3d_st8(top_blob, ivec3(gx, gy, gz), v);
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int gi = gz * psc(outcstep) + gy * psc(outw) + gx;
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ivec4 v_offset = ((z4 / 8) * psc(cstep) + y * psc(w) + x) * 4 + (z4 % 8) / 2;
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ivec4 lane2 = z4 % 2;
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ivec4 vv_offset = ((zz4 / 8) * psc(cstep) + y * psc(w) + x) * 4 + (zz4 % 8) / 2;
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ivec4 lane4 = zz4 % 2;
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afpvec2 vr = buffer_ld2(bottom_blob_data, v_offset.r);
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afpvec2 vg = buffer_ld2(bottom_blob_data, v_offset.g);
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afpvec2 vb = buffer_ld2(bottom_blob_data, v_offset.b);
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afpvec2 va = buffer_ld2(bottom_blob_data, v_offset.a);
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afpvec2 vvr = buffer_ld2(bottom_blob_data, vv_offset.r);
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afpvec2 vvg = buffer_ld2(bottom_blob_data, vv_offset.g);
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afpvec2 vvb = buffer_ld2(bottom_blob_data, vv_offset.b);
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afpvec2 vva = buffer_ld2(bottom_blob_data, vv_offset.a);
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afpvec8 v = afpvec8(vr[lane2.r], vg[lane2.g], vb[lane2.b], va[lane2.a], vvr[lane4.r], vvg[lane4.g], vvb[lane4.b], vva[lane4.a]);
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buffer_st8(top_blob_data, gi, v);
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ivec4 v_offset = ((z4 / 8) * psc(cstep) + y * psc(w) + x) * 8 + z4 % 8;
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ivec4 vv_offset = ((zz4 / 8) * psc(cstep) + y * psc(w) + x) * 8 + zz4 % 8;
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buffer_cp1to8(top_blob_data, gi, bottom_blob_data, v_offset, vv_offset);