min-dalle-test/min_dalle/models/dalle_bart_decoder_flax.py

import jax, flax
from jax import lax, numpy as jnp
from flax import linen as nn
from typing import Tuple

from .dalle_bart_encoder_flax import GLUFlax, AttentionFlax


class DecoderCrossAttentionFlax(AttentionFlax):
    def __call__(
        self,
        decoder_state: jnp.ndarray,
        encoder_state: jnp.ndarray,
        attention_mask: jnp.ndarray,
    ) -> jnp.ndarray:
        keys: jnp.ndarray = self.k_proj(encoder_state)
        values: jnp.ndarray = self.v_proj(encoder_state)
        queries: jnp.ndarray = self.q_proj(decoder_state)
        query_shape = queries.shape[:2] + (self.head_count, -1)
        key_value_shape = keys.shape[:2] + (self.head_count, -1)
        keys = keys.reshape(key_value_shape)
        values = values.reshape(key_value_shape)
        queries = queries.reshape(query_shape)
        queries /= queries.shape[-1] ** 0.5
        return self.forward(keys, values, queries, attention_mask)


class DecoderSelfAttentionFlax(AttentionFlax):
    def __call__(self,
        decoder_state: jnp.ndarray,
        keys_state: jnp.ndarray,
        values_state: jnp.ndarray,
        attention_mask: jnp.ndarray,
        state_index: tuple
    ) -> Tuple[jnp.ndarray, Tuple[jnp.ndarray, jnp.ndarray]]:
        shape_split = decoder_state.shape[:2] + (self.head_count, -1)
        keys_state = lax.dynamic_update_slice(
            keys_state, 
            self.k_proj(decoder_state).reshape(shape_split), 
            state_index
        )
        values_state = lax.dynamic_update_slice(
            values_state, 
            self.v_proj(decoder_state).reshape(shape_split), 
            state_index
        )
        queries = self.q_proj(decoder_state).reshape(shape_split)
        queries /= queries.shape[-1] ** 0.5
        decoder_state = self.forward(
            keys_state, 
            values_state, 
            queries, 
            attention_mask
        )
        return decoder_state, (keys_state, values_state)


class DalleBartDecoderLayerFlax(nn.Module):
    image_token_count: int
    attention_head_count: int
    embed_count: int
    glu_embed_count: int

    def setup(self):
        self.pre_self_attn_layer_norm = nn.LayerNorm(use_scale=False)
        self.self_attn = DecoderSelfAttentionFlax(
            self.attention_head_count,
            self.embed_count
        )
        self.self_attn_layer_norm = nn.LayerNorm()
        self.pre_encoder_attn_layer_norm = nn.LayerNorm(use_scale=False)
        self.encoder_attn = DecoderCrossAttentionFlax(
            self.attention_head_count,
            self.embed_count,
        )
        self.encoder_attn_layer_norm = nn.LayerNorm()
        self.glu = GLUFlax(self.embed_count, self.glu_embed_count)

    @nn.compact
    def __call__(self,
        decoder_state: jnp.ndarray,
        encoder_state: jnp.ndarray,
        keys_state: jnp.ndarray,
        values_state: jnp.ndarray,
        attention_mask: jnp.ndarray,
        token_index: int
    ) -> Tuple[jnp.ndarray, Tuple[jnp.ndarray, jnp.ndarray]]:
        # Self Attention
        residual = decoder_state
        decoder_state = self.pre_self_attn_layer_norm(decoder_state)
        self_attention_mask = jnp.tile(
            jnp.arange(self.image_token_count) < token_index + 1, 
            (decoder_state.shape[0], 1)
        )
        decoder_state, keys_values_state = self.self_attn(
            decoder_state,
            keys_state,
            values_state,
            self_attention_mask,
            (0, token_index, 0, 0)
        )
        decoder_state = self.self_attn_layer_norm(decoder_state)
        decoder_state = residual + decoder_state

        # Cross Attention
        residual = decoder_state
        decoder_state = self.pre_encoder_attn_layer_norm(decoder_state)
        decoder_state = self.encoder_attn(
            decoder_state,
            encoder_state,
            attention_mask
        )
        decoder_state = self.encoder_attn_layer_norm(decoder_state)
        decoder_state = residual + decoder_state

        # Feed forward
        residual = decoder_state
        decoder_state = self.glu(decoder_state)
        decoder_state = residual + decoder_state

        return decoder_state, keys_values_state


@flax.struct.dataclass
class SampleState:
    prev_token: jnp.ndarray
    prng_key: jnp.ndarray
    keys_state: jnp.ndarray
    values_state: jnp.ndarray

def super_conditioned(logits: jnp.ndarray, a: float) -> jnp.ndarray:
    return a * logits[0, -1] + (1 - a) * logits[1, -1]

def keep_top_k(logits: jnp.ndarray, k: int) -> jnp.ndarray:
    top_logits, _ = lax.top_k(logits, k)
    suppressed = -jnp.inf * jnp.ones_like(logits)
    return lax.select(logits < top_logits[-1], suppressed, logits)

class DalleBartDecoderFlax(nn.Module):
    image_token_count: int
    text_token_count: int
    image_vocab_count: int
    attention_head_count: int
    embed_count: int
    glu_embed_count: int
    layer_count: int
    start_token: int

    def setup(self):
        self.embed_tokens = nn.Embed(
            self.image_vocab_count + 1,
            self.embed_count
        )
        self.embed_positions = nn.Embed(
            self.image_token_count,
            self.embed_count
        )
        self.layers = nn.scan(
            DalleBartDecoderLayerFlax,
            variable_axes = { "params": 0, "cache": 0 },
            split_rngs = { "params": True },
            in_axes = (nn.broadcast, 0, 0, nn.broadcast, nn.broadcast),
            out_axes = (0, 0),
            length=self.layer_count,
        )(
            self.image_token_count,
            self.attention_head_count,
            self.embed_count,
            self.glu_embed_count, 
            name="FlaxBartDecoderLayers"
        )
        self.layernorm_embedding = nn.LayerNorm()
        self.final_ln = nn.LayerNorm(use_scale=False)
        self.lm_head = nn.Dense(self.image_vocab_count + 1, use_bias=False)

    def __call__(self,
        encoder_state: jnp.ndarray,
        keys_state: jnp.ndarray,
        values_state: jnp.ndarray,
        attention_mask: jnp.ndarray,
        prev_token: int,
        token_index: int
    ) -> Tuple[jnp.ndarray, jnp.ndarray, jnp.ndarray]:
        batch_count = encoder_state.shape[0]
        ones = jnp.ones((batch_count, 1), dtype=jnp.int32)
        decoder_state = self.embed_tokens(prev_token * ones) 
        decoder_state += self.embed_positions(token_index * ones)
        decoder_state = self.layernorm_embedding(decoder_state)
        decoder_state, (keys_state, values_state) = self.layers(
            decoder_state,
            encoder_state,
            keys_state,
            values_state,
            attention_mask,
            token_index
        )
        decoder_state = self.final_ln(decoder_state)
        decoder_state = self.lm_head(decoder_state)
        return decoder_state, keys_state, values_state

    def sample_image_tokens(self,
        text_tokens: jnp.ndarray,
        encoder_state: jnp.ndarray,
        prng_key: jax.random.PRNGKey,
        params: dict
    ) -> jnp.ndarray:
        attention_mask = jnp.not_equal(text_tokens, 1)
        
        def sample_next_image_token(
            state: SampleState,
            token_index: int
        ) -> Tuple[SampleState, None]:
            logits, keys_state, values_state = self.apply(
                { 'params': params },
                encoder_state = encoder_state,
                keys_state = state.keys_state,
                values_state = state.values_state,
                attention_mask = attention_mask,
                prev_token = state.prev_token,
                token_index = token_index
            )
            
            logits = super_conditioned(logits, 10.0)
            logits = keep_top_k(logits, k=50)

            prng_key, prng_key_next = jax.random.split(state.prng_key)
            next_token = jax.random.categorical(prng_key, logits, axis=-1)

            state = SampleState(
                prev_token = next_token,
                prng_key = prng_key_next,
                keys_state = keys_state,
                values_state = values_state
            )

            return state, next_token

        batch_count = encoder_state.shape[0]
        state_shape = (
            self.layer_count, 
            batch_count, 
            self.image_token_count, 
            self.attention_head_count, 
            self.embed_count // self.attention_head_count
        )

        initial_state = SampleState(
            prev_token = self.start_token,
            prng_key = prng_key,
            keys_state = jnp.zeros(state_shape),
            values_state = jnp.zeros(state_shape)
        )

        _, image_tokens = lax.scan(
            sample_next_image_token,
            initial_state,
            jnp.arange(self.image_token_count)
        )       

        return image_tokens
first commit 2022-06-27 15:57:56 +00:00			`import jax, flax`
			`from jax import lax, numpy as jnp`
			`from flax import linen as nn`
			`from typing import Tuple`

			`from .dalle_bart_encoder_flax import GLUFlax, AttentionFlax`


			`class DecoderCrossAttentionFlax(AttentionFlax):`
			`def __call__(`
			`self,`
			`decoder_state: jnp.ndarray,`
			`encoder_state: jnp.ndarray,`
			`attention_mask: jnp.ndarray,`
			`) -> jnp.ndarray:`
			`keys: jnp.ndarray = self.k_proj(encoder_state)`
			`values: jnp.ndarray = self.v_proj(encoder_state)`
			`queries: jnp.ndarray = self.q_proj(decoder_state)`
			`query_shape = queries.shape[:2] + (self.head_count, -1)`
			`key_value_shape = keys.shape[:2] + (self.head_count, -1)`
			`keys = keys.reshape(key_value_shape)`
			`values = values.reshape(key_value_shape)`
			`queries = queries.reshape(query_shape)`
			`queries /= queries.shape[-1] ** 0.5`
			`return self.forward(keys, values, queries, attention_mask)`


			`class DecoderSelfAttentionFlax(AttentionFlax):`
			`def __call__(self,`
			`decoder_state: jnp.ndarray,`
			`keys_state: jnp.ndarray,`
			`values_state: jnp.ndarray,`
			`attention_mask: jnp.ndarray,`
			`state_index: tuple`
			`) -> Tuple[jnp.ndarray, Tuple[jnp.ndarray, jnp.ndarray]]:`
			`shape_split = decoder_state.shape[:2] + (self.head_count, -1)`
			`keys_state = lax.dynamic_update_slice(`
previous commit broke colab example, so adjusting flax requirement to 0.4.2 for now 2022-06-28 12:04:08 +00:00			`keys_state,`
first commit 2022-06-27 15:57:56 +00:00			`self.k_proj(decoder_state).reshape(shape_split),`
			`state_index`
			`)`
			`values_state = lax.dynamic_update_slice(`
			`values_state,`
			`self.v_proj(decoder_state).reshape(shape_split),`
			`state_index`
			`)`
			`queries = self.q_proj(decoder_state).reshape(shape_split)`
			`queries /= queries.shape[-1] ** 0.5`
			`decoder_state = self.forward(`
			`keys_state,`
			`values_state,`
			`queries,`
			`attention_mask`
			`)`
			`return decoder_state, (keys_state, values_state)`


			`class DalleBartDecoderLayerFlax(nn.Module):`
			`image_token_count: int`
			`attention_head_count: int`
			`embed_count: int`
			`glu_embed_count: int`

			`def setup(self):`
			`self.pre_self_attn_layer_norm = nn.LayerNorm(use_scale=False)`
			`self.self_attn = DecoderSelfAttentionFlax(`
			`self.attention_head_count,`
			`self.embed_count`
			`)`
			`self.self_attn_layer_norm = nn.LayerNorm()`
			`self.pre_encoder_attn_layer_norm = nn.LayerNorm(use_scale=False)`
			`self.encoder_attn = DecoderCrossAttentionFlax(`
			`self.attention_head_count,`
			`self.embed_count,`
			`)`
			`self.encoder_attn_layer_norm = nn.LayerNorm()`
			`self.glu = GLUFlax(self.embed_count, self.glu_embed_count)`

			`@nn.compact`
			`def __call__(self,`
			`decoder_state: jnp.ndarray,`
			`encoder_state: jnp.ndarray,`
			`keys_state: jnp.ndarray,`
			`values_state: jnp.ndarray,`
			`attention_mask: jnp.ndarray,`
			`token_index: int`
			`) -> Tuple[jnp.ndarray, Tuple[jnp.ndarray, jnp.ndarray]]:`
			`# Self Attention`
			`residual = decoder_state`
			`decoder_state = self.pre_self_attn_layer_norm(decoder_state)`
			`self_attention_mask = jnp.tile(`
			`jnp.arange(self.image_token_count) < token_index + 1,`
			`(decoder_state.shape[0], 1)`
			`)`
			`decoder_state, keys_values_state = self.self_attn(`
			`decoder_state,`
			`keys_state,`
			`values_state,`
			`self_attention_mask,`
			`(0, token_index, 0, 0)`
			`)`
			`decoder_state = self.self_attn_layer_norm(decoder_state)`
			`decoder_state = residual + decoder_state`

			`# Cross Attention`
			`residual = decoder_state`
			`decoder_state = self.pre_encoder_attn_layer_norm(decoder_state)`
			`decoder_state = self.encoder_attn(`
			`decoder_state,`
			`encoder_state,`
			`attention_mask`
			`)`
			`decoder_state = self.encoder_attn_layer_norm(decoder_state)`
			`decoder_state = residual + decoder_state`

			`# Feed forward`
			`residual = decoder_state`
			`decoder_state = self.glu(decoder_state)`
			`decoder_state = residual + decoder_state`

			`return decoder_state, keys_values_state`


			`@flax.struct.dataclass`
			`class SampleState:`
			`prev_token: jnp.ndarray`
			`prng_key: jnp.ndarray`
			`keys_state: jnp.ndarray`
			`values_state: jnp.ndarray`

			`def super_conditioned(logits: jnp.ndarray, a: float) -> jnp.ndarray:`
			`return a * logits[0, -1] + (1 - a) * logits[1, -1]`

			`def keep_top_k(logits: jnp.ndarray, k: int) -> jnp.ndarray:`
license and cleanup 2022-06-27 18:34:10 +00:00			`top_logits, _ = lax.top_k(logits, k)`
first commit 2022-06-27 15:57:56 +00:00			`suppressed = -jnp.inf * jnp.ones_like(logits)`
			`return lax.select(logits < top_logits[-1], suppressed, logits)`

			`class DalleBartDecoderFlax(nn.Module):`
			`image_token_count: int`
			`text_token_count: int`
			`image_vocab_count: int`
			`attention_head_count: int`
			`embed_count: int`
			`glu_embed_count: int`
			`layer_count: int`
			`start_token: int`

			`def setup(self):`
			`self.embed_tokens = nn.Embed(`
			`self.image_vocab_count + 1,`
			`self.embed_count`
			`)`
			`self.embed_positions = nn.Embed(`
			`self.image_token_count,`
			`self.embed_count`
			`)`
			`self.layers = nn.scan(`
			`DalleBartDecoderLayerFlax,`
			`variable_axes = { "params": 0, "cache": 0 },`
			`split_rngs = { "params": True },`
			`in_axes = (nn.broadcast, 0, 0, nn.broadcast, nn.broadcast),`
			`out_axes = (0, 0),`
			`length=self.layer_count,`
			`)(`
			`self.image_token_count,`
			`self.attention_head_count,`
			`self.embed_count,`
			`self.glu_embed_count,`
			`name="FlaxBartDecoderLayers"`
			`)`
			`self.layernorm_embedding = nn.LayerNorm()`
			`self.final_ln = nn.LayerNorm(use_scale=False)`
			`self.lm_head = nn.Dense(self.image_vocab_count + 1, use_bias=False)`

			`def __call__(self,`
			`encoder_state: jnp.ndarray,`
			`keys_state: jnp.ndarray,`
			`values_state: jnp.ndarray,`
			`attention_mask: jnp.ndarray,`
			`prev_token: int,`
			`token_index: int`
			`) -> Tuple[jnp.ndarray, jnp.ndarray, jnp.ndarray]:`
			`batch_count = encoder_state.shape[0]`
			`ones = jnp.ones((batch_count, 1), dtype=jnp.int32)`
			`decoder_state = self.embed_tokens(prev_token * ones)`
			`decoder_state += self.embed_positions(token_index * ones)`
			`decoder_state = self.layernorm_embedding(decoder_state)`
			`decoder_state, (keys_state, values_state) = self.layers(`
			`decoder_state,`
			`encoder_state,`
			`keys_state,`
			`values_state,`
			`attention_mask,`
			`token_index`
			`)`
			`decoder_state = self.final_ln(decoder_state)`
			`decoder_state = self.lm_head(decoder_state)`
			`return decoder_state, keys_state, values_state`

			`def sample_image_tokens(self,`
			`text_tokens: jnp.ndarray,`
			`encoder_state: jnp.ndarray,`
			`prng_key: jax.random.PRNGKey,`
			`params: dict`
			`) -> jnp.ndarray:`
			`attention_mask = jnp.not_equal(text_tokens, 1)`

			`def sample_next_image_token(`
			`state: SampleState,`
			`token_index: int`
			`) -> Tuple[SampleState, None]:`
			`logits, keys_state, values_state = self.apply(`
			`{ 'params': params },`
			`encoder_state = encoder_state,`
			`keys_state = state.keys_state,`
			`values_state = state.values_state,`
			`attention_mask = attention_mask,`
			`prev_token = state.prev_token,`
			`token_index = token_index`
			`)`

			`logits = super_conditioned(logits, 10.0)`
			`logits = keep_top_k(logits, k=50)`

			`prng_key, prng_key_next = jax.random.split(state.prng_key)`
			`next_token = jax.random.categorical(prng_key, logits, axis=-1)`

			`state = SampleState(`
			`prev_token = next_token,`
			`prng_key = prng_key_next,`
			`keys_state = keys_state,`
			`values_state = values_state`
			`)`

			`return state, next_token`

			`batch_count = encoder_state.shape[0]`
			`state_shape = (`
			`self.layer_count,`
			`batch_count,`
			`self.image_token_count,`
			`self.attention_head_count,`
			`self.embed_count // self.attention_head_count`
			`)`

			`initial_state = SampleState(`
			`prev_token = self.start_token,`
			`prng_key = prng_key,`
previous commit broke colab example, so adjusting flax requirement to 0.4.2 for now 2022-06-28 12:04:08 +00:00			`keys_state = jnp.zeros(state_shape),`
			`values_state = jnp.zeros(state_shape)`
first commit 2022-06-27 15:57:56 +00:00			`)`

			`_, image_tokens = lax.scan(`
			`sample_next_image_token,`
			`initial_state,`
			`jnp.arange(self.image_token_count)`
			`)`

			`return image_tokens`