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import torch | |
import torch.nn as nn | |
from torch.nn import functional as F | |
import math | |
class MLP(nn.Module): | |
def __init__(self, in_feat, hid_feat=None, out_feat=None, dropout=0.): | |
super().__init__() | |
if not hid_feat: | |
hid_feat = in_feat | |
if not out_feat: | |
out_feat = in_feat | |
self.fc1 = nn.Linear(in_feat, hid_feat) | |
self.act = torch.nn.ReLU() | |
self.fc2 = nn.Linear(hid_feat,out_feat) | |
self.droprateout = nn.Dropout(dropout) | |
def forward(self, x): | |
x = self.fc1(x) | |
x = self.act(x) | |
x = self.fc2(x) | |
return self.droprateout(x) | |
class Attention_new(nn.Module): | |
def __init__(self, dim, heads, attention_dropout=0.): | |
super().__init__() | |
assert dim % heads == 0 | |
self.heads = heads | |
self.scale = 1./dim**0.5 | |
self.q = nn.Linear(dim, dim) | |
self.k = nn.Linear(dim, dim) | |
self.v = nn.Linear(dim, dim) | |
self.e = nn.Linear(dim, dim) | |
self.d_k = dim // heads | |
self.heads = heads | |
self.out_e = nn.Linear(dim,dim) | |
self.out_n = nn.Linear(dim, dim) | |
def forward(self, node, edge): | |
b, n, c = node.shape | |
q_embed = self.q(node).view(-1, n, self.heads, c//self.heads) | |
k_embed = self.k(node).view(-1, n, self.heads, c//self.heads) | |
v_embed = self.v(node).view(-1, n, self.heads, c//self.heads) | |
e_embed = self.e(edge).view(-1, n, n, self.heads, c//self.heads) | |
q_embed = q_embed.unsqueeze(2) | |
k_embed = k_embed.unsqueeze(1) | |
attn = q_embed * k_embed | |
attn = attn/ math.sqrt(self.d_k) | |
attn = attn * (e_embed + 1) * e_embed | |
edge = self.out_e(attn.flatten(3)) | |
attn = F.softmax(attn, dim=2) | |
v_embed = v_embed.unsqueeze(1) | |
v_embed = attn * v_embed | |
v_embed = v_embed.sum(dim=2).flatten(2) | |
node = self.out_n(v_embed) | |
return node, edge | |
class Encoder_Block(nn.Module): | |
def __init__(self, dim, heads, act, mlp_ratio=4, drop_rate=0.): | |
super().__init__() | |
self.ln1 = nn.LayerNorm(dim) | |
self.attn = Attention_new(dim, heads, drop_rate) | |
self.ln3 = nn.LayerNorm(dim) | |
self.ln4 = nn.LayerNorm(dim) | |
self.mlp = MLP(dim, dim*mlp_ratio, dim, dropout=drop_rate) | |
self.mlp2 = MLP(dim, dim*mlp_ratio, dim, dropout=drop_rate) | |
self.ln5 = nn.LayerNorm(dim) | |
self.ln6 = nn.LayerNorm(dim) | |
def forward(self, x, y): | |
x1 = self.ln1(x) | |
x2,y1 = self.attn(x1,y) | |
x2 = x1 + x2 | |
y2 = y1 + y | |
x2 = self.ln3(x2) | |
y2 = self.ln4(y2) | |
x = self.ln5(x2 + self.mlp(x2)) | |
y = self.ln6(y2 + self.mlp2(y2)) | |
return x, y | |
class TransformerEncoder(nn.Module): | |
def __init__(self, dim, depth, heads, act, mlp_ratio=4, drop_rate=0.1): | |
super().__init__() | |
self.Encoder_Blocks = nn.ModuleList([ | |
Encoder_Block(dim, heads, act, mlp_ratio, drop_rate) | |
for i in range(depth)]) | |
def forward(self, x, y): | |
for Encoder_Block in self.Encoder_Blocks: | |
x, y = Encoder_Block(x,y) | |
return x, y | |