/****************************************************************************** * Copyright (c) 2023, Tri Dao. ******************************************************************************/ #pragma once namespace flash { //////////////////////////////////////////////////////////////////////////////////////////////////// template struct BlockInfo { template __device__ BlockInfo(const Params ¶ms, const int bidb) : sum_s_q(!Varlen || params.cu_seqlens_q == nullptr ? -1 : params.cu_seqlens_q[bidb]) , sum_s_k(!Varlen || params.cu_seqlens_k == nullptr || !params.is_seqlens_k_cumulative ? -1 : params.cu_seqlens_k[bidb]) , actual_seqlen_q(!Varlen || params.cu_seqlens_q == nullptr ? params.seqlen_q : params.cu_seqlens_q[bidb + 1] - sum_s_q) // If is_seqlens_k_cumulative, then seqlen_k is cu_seqlens_k[bidb + 1] - cu_seqlens_k[bidb]. // Otherwise it's cu_seqlens_k[bidb], i.e., we use cu_seqlens_k to store the sequence lengths of K. , seqlen_k_cache(!Varlen || params.cu_seqlens_k == nullptr ? params.seqlen_k : (params.is_seqlens_k_cumulative ? params.cu_seqlens_k[bidb + 1] - sum_s_k : params.cu_seqlens_k[bidb])) , actual_seqlen_k(params.seqused_k ? params.seqused_k[bidb] : seqlen_k_cache + (params.knew_ptr == nullptr ? 0 : params.seqlen_knew)) { } template __forceinline__ __device__ index_t q_offset(const index_t batch_stride, const index_t row_stride, const int bidb) const { return sum_s_q == -1 ? bidb * batch_stride : uint32_t(sum_s_q) * row_stride; } template __forceinline__ __device__ index_t k_offset(const index_t batch_stride, const index_t row_stride, const int bidb) const { return sum_s_k == -1 ? bidb * batch_stride : uint32_t(sum_s_k) * row_stride; } const int sum_s_q; const int sum_s_k; const int actual_seqlen_q; // We have to have seqlen_k_cache declared before actual_seqlen_k, otherwise actual_seqlen_k is set to 0. const int seqlen_k_cache; const int actual_seqlen_k; }; //////////////////////////////////////////////////////////////////////////////////////////////////// } // namespace flash