local FrmBuffer = nerv.class("nerv.FrmBuffer", "nerv.DataBuffer")
function FrmBuffer:__init(global_conf, buffer_conf)
self.gconf = global_conf
self.batch_size = buffer_conf.batch_size
self.buffer_size = math.floor(buffer_conf.buffer_size /
self.batch_size) * self.batch_size
self.randomize = buffer_conf.randomize
self.consume = buffer_conf.consume
local cumat_type = global_conf.cumat_type
if self.gconf.use_cpu then
self.output_mat_type = self.gconf.mmat_type
else
self.output_mat_type = self.gconf.cumat_type
end
if buffer_conf.use_gpu then
self.mat_type = cumat_type
if self.gconf.use_cpu then
-- gpu buffer -> cpu training
nerv.error("not implemeted")
else
-- gpu buffer -> gpu training
self.copy_rows_from_by_idx = cumat_type.copy_rows_fromd_by_idx
self.copy_from = cumat_type.copy_fromd
end
self.perm_gen = function (x)
return cumat_type.new_from_host(nerv.MMatrixFloat.perm_gen(x))
end
else
self.mat_type = global_conf.mmat_type
if self.gconf.use_cpu then
-- cpu buffer -> cpu training
self.copy_rows_from_by_idx = gconf.mmat_type.copy_rows_fromh_by_idx
self.copy_from = gconf.mmat_type.copy_fromh
else
-- cpu buffer -> gpu training
self.copy_rows_from_by_idx = cumat_type.copy_rows_fromh_by_idx
self.copy_from = cumat_type.copy_fromh
end
self.perm_gen = nerv.MMatrixFloat.perm_gen
end
self.copy_from_reader = self.mat_type.copy_fromh
self.head = 0
self.tail = 0
self.readers = {}
for i, reader_spec in ipairs(buffer_conf.readers) do
local buffs = {}
for id, width in pairs(reader_spec.data) do
buffs[id] = {data = self.mat_type(self.buffer_size, width),
leftover = nil,
width = width}
end
table.insert(self.readers, {buffs = buffs,
reader = reader_spec.reader,
tail = 0,
has_leftover = false})
end
end
function FrmBuffer:saturate()
local buffer_size = self.buffer_size
self.head = 0
self.tail = buffer_size
for i, reader in ipairs(self.readers) do
reader.tail = 0
if reader.has_leftover then
local lrow
for id, buff in pairs(reader.buffs) do
lrow = buff.leftover:nrow()
if lrow > buffer_size then
nerv.error("buffer size is too small to contain leftovers")
end
buff.data:copy_from(buff.leftover, 0, lrow)
buff.leftover = nil
end
nerv.info("buffer leftover: %d\n", lrow)
reader.tail = lrow
reader.has_leftover = false
end
while reader.tail < buffer_size do
local data = reader.reader:get_data()
if data == nil then
break
end
local drow = nil
for id, d in pairs(data) do
if drow == nil then
drow = d:nrow()
elseif d:nrow() ~= drow then
nerv.error("reader provides with inconsistent rows of data")
end
end
local remain = buffer_size - reader.tail
if drow > remain then
for id, buff in pairs(reader.buffs) do
local d = data[id]
if d == nil then
nerv.error("reader does not provide data for %s", id)
end
buff.leftover = self.mat_type(drow - remain,
buff.width)
self.copy_from_reader(buff.leftover, d, remain, drow)
end
drow = remain
reader.has_leftover = true
end
for id, buff in pairs(reader.buffs) do
self.copy_from_reader(buff.data, data[id], 0, drow, reader.tail)
end
reader.tail = reader.tail + drow
end
self.tail = math.min(self.tail, reader.tail)
end
self.rand_map = self.perm_gen(self.tail) -- generate shuffled index
collectgarbage("collect")
return self.tail >= self.batch_size
end
function FrmBuffer:get_data()
local batch_size = self.batch_size
if self.head >= self.tail then -- buffer is empty
local t = os.clock()
if (not self:saturate()) and (not self.consume) then
return nil -- the remaining data cannot build a batch
end
if self.tail == self.head then
return nil -- nothing left
end
nerv.info("%.3fs to fill the buffer", os.clock() - t)
end
if self.head + batch_size > self.tail and (not self.consume) then
return nil -- the remaining data cannot build a batch
end
actual_batch_size = math.min(batch_size, self.tail - self.head)
local res = {seq_length = table.vector(gconf.batch_size, 1),
new_seq = {},
data = {}}
for i, reader in ipairs(self.readers) do
for id, buff in pairs(reader.buffs) do
local batch = self.output_mat_type(actual_batch_size, buff.width)
if self.randomize then
self.copy_rows_from_by_idx(batch, buff.data, self.rand_map, self.