diff options
-rw-r--r-- | nerv/examples/lmptb/sample_grulm_ptb_main.lua | 431 |
1 files changed, 431 insertions, 0 deletions
diff --git a/nerv/examples/lmptb/sample_grulm_ptb_main.lua b/nerv/examples/lmptb/sample_grulm_ptb_main.lua new file mode 100644 index 0000000..86209da --- /dev/null +++ b/nerv/examples/lmptb/sample_grulm_ptb_main.lua @@ -0,0 +1,431 @@ +require 'lmptb.lmvocab' +require 'lmptb.lmfeeder' +require 'lmptb.lmutil' +require 'lmptb.layer.init' +--require 'tnn.init' +require 'lmptb.lmseqreader' +require 'lm_trainer' + +--[[global function rename]]-- +--local printf = nerv.printf +local LMTrainer = nerv.LMTrainer +--[[global function rename ends]]-- + +function prepare_parameters(global_conf, fn) + nerv.printf("%s preparing parameters...\n", global_conf.sche_log_pre) + + global_conf.paramRepo = nerv.ParamRepo() + local paramRepo = global_conf.paramRepo + + nerv.printf("%s loading parameter from file %s...\n", global_conf.sche_log_pre, fn) + paramRepo:import({fn}, nil, global_conf) + + nerv.printf("%s preparing parameters end.\n", global_conf.sche_log_pre) + + return nil +end + +--global_conf: table +--Returns: nerv.LayerRepo +function prepare_layers(global_conf) + nerv.printf("%s preparing layers...\n", global_conf.sche_log_pre) + + local pr = global_conf.paramRepo + + local du = false + + --local recurrentLconfig = {{["bp"] = "bp_h", ["ltp_hh"] = "ltp_hh"}, {["dim_in"] = {global_conf.hidden_size, global_conf.hidden_size}, ["dim_out"] = {global_conf.hidden_size}, ["break_id"] = global_conf.vocab:get_sen_entry().id, ["independent"] = global_conf.independent, ["clip"] = 10}} + --local recurrentLconfig = {{}, {["dim_in"] = {global_conf.hidden_size, global_conf.hidden_size}, ["dim_out"] = {global_conf.hidden_size}, ["clip"] = 10, ["direct_update"] = du, ["pr"] = pr}} + + local layers = { + ["nerv.GRULayerT"] = { + ["gruL1"] = {{}, {["dim_in"] = {global_conf.hidden_size, global_conf.hidden_size}, ["dim_out"] = {global_conf.hidden_size}, ["pr"] = pr}}, + }, + + ["nerv.DropoutLayerT"] = { + ["dropoutL1"] = {{}, {["dim_in"] = {global_conf.hidden_size}, ["dim_out"] = {global_conf.hidden_size}}}, + }, + + ["nerv.SelectLinearLayer"] = { + ["selectL1"] = {{}, {["dim_in"] = {1}, ["dim_out"] = {global_conf.hidden_size}, ["vocab"] = global_conf.vocab, ["pr"] = pr}}, + }, + + ["nerv.CombinerLayer"] = { + ["combinerL1"] = {{}, {["dim_in"] = {global_conf.hidden_size}, ["dim_out"] = {global_conf.hidden_size, global_conf.hidden_size}, ["lambda"] = {1}}}, + }, + + ["nerv.AffineLayer"] = { + ["outputL"] = {{}, {["dim_in"] = {global_conf.hidden_size}, ["dim_out"] = {global_conf.vocab:size()}, ["direct_update"] = du, ["pr"] = pr}}, + }, + + ["nerv.SoftmaxCELayerT"] = { + ["softmaxL"] = {{}, {["dim_in"] = {global_conf.vocab:size(), global_conf.vocab:size()}, ["dim_out"] = {1}}}, + }, + } + + for l = 2, global_conf.layer_num do + layers["nerv.DropoutLayerT"]["dropoutL" .. l] = {{}, {["dim_in"] = {global_conf.hidden_size}, ["dim_out"] = {global_conf.hidden_size}}} + layers["nerv.GRULayerT"]["gruL" .. l] = {{}, {["dim_in"] = {global_conf.hidden_size, global_conf.hidden_size}, ["dim_out"] = {global_conf.hidden_size}, ["pr"] = pr}} + layers["nerv.CombinerLayer"]["combinerL" .. l] = {{}, {["dim_in"] = {global_conf.hidden_size}, ["dim_out"] = {global_conf.hidden_size, global_conf.hidden_size}, ["lambda"] = {1}}} + end + --[[ --we do not need those in the new tnn framework + printf("%s adding %d bptt layers...\n", global_conf.sche_log_pre, global_conf.bptt) + for i = 1, global_conf.bptt do + layers["nerv.IndRecurrentLayer"]["recurrentL" .. (i + 1)] = recurrentLconfig + layers["nerv.SigmoidLayer"]["sigmoidL" .. (i + 1)] = {{}, {["dim_in"] = {global_conf.hidden_size}, ["dim_out"] = {global_conf.hidden_size}}} + layers["nerv.SelectLinearLayer"]["selectL" .. (i + 1)] = {{["ltp"] = "ltp_ih"}, {["dim_in"] = {1}, ["dim_out"] = {global_conf.hidden_size}}} + end + --]] + + local layerRepo = nerv.LayerRepo(layers, pr, global_conf) + nerv.printf("%s preparing layers end.\n", global_conf.sche_log_pre) + return layerRepo +end + +--global_conf: table +--layerRepo: nerv.LayerRepo +--Returns: a nerv.TNN +function prepare_tnn(global_conf, layerRepo) + nerv.printf("%s Generate and initing TNN ...\n", global_conf.sche_log_pre) + + --input: input_w, input_w, ... input_w_now, last_activation + local connections_t = { + {"<input>[1]", "selectL1[1]", 0}, + + --{"selectL1[1]", "recurrentL1[1]", 0}, + --{"recurrentL1[1]", "sigmoidL1[1]", 0}, + --{"sigmoidL1[1]", "combinerL1[1]", 0}, + --{"combinerL1[1]", "recurrentL1[2]", 1}, + + {"selectL1[1]", "gruL1[1]", 0}, + {"gruL1[1]", "combinerL1[1]", 0}, + {"combinerL1[1]", "gruL1[2]", 1}, + {"combinerL1[2]", "dropoutL1[1]", 0}, + + {"dropoutL"..global_conf.layer_num.."[1]", "outputL[1]", 0}, + {"outputL[1]", "softmaxL[1]", 0}, + {"<input>[2]", "softmaxL[2]", 0}, + {"softmaxL[1]", "<output>[1]", 0} + } + + for l = 2, global_conf.layer_num do + table.insert(connections_t, {"dropoutL"..(l-1).."[1]", "gruL"..l.."[1]", 0}) + table.insert(connections_t, {"gruL"..l.."[1]", "combinerL"..l.."[1]", 0}) + table.insert(connections_t, {"combinerL"..l.."[1]", "gruL"..l.."[2]", 1}) + table.insert(connections_t, {"combinerL"..l.."[2]", "dropoutL"..l.."[1]", 0}) + end + + --[[ + printf("%s printing DAG connections:\n", global_conf.sche_log_pre) + for key, value in pairs(connections_t) do + printf("\t%s->%s\n", key, value) + end + ]]-- + + local tnn = nerv.TNN("TNN", global_conf, {["dim_in"] = {1, global_conf.vocab:size()}, + ["dim_out"] = {1}, ["sub_layers"] = layerRepo, + ["connections"] = connections_t, ["clip_t"] = global_conf.clip_t, + }) + + tnn:init(global_conf.batch_size, global_conf.chunk_size) + + nerv.printf("%s Initing TNN end.\n", global_conf.sche_log_pre) + return tnn +end + +function prepare_dagL(global_conf, layerRepo) + nerv.printf("%s Generate and initing TNN ...\n", global_conf.sche_log_pre) + + --input: input_w, input_w, ... input_w_now, last_activation + local connections_t = { + ["<input>[1]"] = "selectL1[1]", + + ["selectL1[1]"] = "gruL1[1]", + ["gruL1[1]"] = "combinerL1[1]", + ["<input>[2]"] = "gruL1[2]", + --{"combinerL1[2]", "dropoutL1[1]", 0}, + + ["combinerL" .. global_conf.layer_num .. "[1]"] = "outputL[1]", + ["outputL[1]"] = "<output>[1]", + ["combinerL1[2]"] = "<output>[2]", + } + + if global_conf.layer_num > 1 then + nerv.error("multiple layer is currently not supported(not hard to implement though)") + end + --[[ + for l = 2, global_conf.layer_num do + table.insert(connections_t, {"dropoutL"..(l-1).."[1]", "gruL"..l.."[1]", 0}) + table.insert(connections_t, {"gruL"..l.."[1]", "combinerL"..l.."[1]", 0}) + table.insert(connections_t, {"combinerL"..l.."[1]", "gruL"..l.."[2]", 1}) + table.insert(connections_t, {"combinerL"..l.."[2]", "dropoutL"..l.."[1]", 0}) + end + ]]-- + + --[[ + printf("%s printing DAG connections:\n", global_conf.sche_log_pre) + for key, value in pairs(connections_t) do + printf("\t%s->%s\n", key, value) + end + ]]-- + + local dagL = nerv.DAGLayerT("dagL", global_conf, {["dim_in"] = {1, global_conf.hidden_size}, + ["dim_out"] = {global_conf.vocab:size(), global_conf.hidden_size}, ["sub_layers"] = layerRepo, + ["connections"] = connections_t + }) + + dagL:init(global_conf.batch_size) + + nerv.printf("%s Initing DAGL end.\n", global_conf.sche_log_pre) + return tnn +end + +function load_net_tnn(global_conf, fn) + prepare_parameters(global_conf, fn) + local layerRepo = prepare_layers(global_conf) + local tnn = prepare_tnn(global_conf, layerRepo) + return tnn +end + +function load_net_dagL(global_conf, fn) + prepare_parameters(global_conf, fn) + local layerRepo = prepare_layers(global_conf) + local tnn = prepare_dagL(global_conf, layerRepo) + return tnn +end + +local train_fn, valid_fn, test_fn +global_conf = {} +local set = arg[1] --"test" + +root_dir = '/home/slhome/txh18/workspace' + +if (set == "ptb") then + +data_dir = root_dir .. '/ptb/DATA' +train_fn = data_dir .. '/ptb.train.txt.adds' +valid_fn = data_dir .. '/ptb.valid.txt.adds' +test_fn = data_dir .. '/ptb.test.txt.adds' +vocab_fn = data_dir .. '/vocab' + +qdata_dir = root_dir .. '/ptb/questionGen/gen' + +global_conf = { + lrate = 0.15, wcost = 1e-5, momentum = 0, clip_t = 5, + cumat_type = nerv.CuMatrixFloat, + mmat_type = nerv.MMatrixFloat, + nn_act_default = 0, + + hidden_size = 300, + layer_num = 1, + chunk_size = 15, + batch_size = 32, + max_iter = 35, + lr_decay = 1.003, + decay_iter = 10, + param_random = function() return (math.random() / 5 - 0.1) end, + dropout_str = "0.5", + + train_fn = train_fn, + valid_fn = valid_fn, + test_fn = test_fn, + vocab_fn = vocab_fn, + max_sen_len = 90, + sche_log_pre = "[SCHEDULER]:", + log_w_num = 40000, --give a message when log_w_num words have been processed + timer = nerv.Timer(), + work_dir_base = root_dir .. '/ptb/EXP-nerv/grulm_v1.0', + + fn_to_sample = root_dir .. '/ptb/EXP-nerv/grulm_v1.0h300l1ch15ba32slr0.15wc1e-05dr0.5/params.final', +} + +elseif (set == "msr_sc") then + +data_dir = '/home/slhome/txh18/workspace/sentenceCompletion/DATA_PV2' +train_fn = data_dir .. '/normed_all.sf.len60.adds.train' +valid_fn = data_dir .. '/normed_all.sf.len60.adds.dev' +test_fn = data_dir .. '/answer_normed.adds' +vocab_fn = data_dir .. '/normed_all.choose.vocab30000.addqvocab' + +global_conf = { + lrate = 1, wcost = 1e-6, momentum = 0, + cumat_type = nerv.CuMatrixFloat, + mmat_type = nerv.MMatrixFloat, + nn_act_default = 0, + + hidden_size = 300, + layer_num = 1, + chunk_size = 15, + batch_size = 10, + max_iter = 30, + decay_iter = 10, + lr_decay = 1.003, + param_random = function() return (math.random() / 5 - 0.1) end, + dropout_str = "0", + + train_fn = train_fn, + valid_fn = valid_fn, + test_fn = test_fn, + vocab_fn = vocab_fn, + sche_log_pre = "[SCHEDULER]:", + log_w_num = 400000, --give a message when log_w_num words have been processed + timer = nerv.Timer(), + work_dir_base = '/home/slhome/txh18/workspace/sentenceCompletion/EXP-Nerv/rnnlm_test' +} + +elseif (set == "twitter") then + +data_dir = root_dir .. '/twitter_new/DATA' +train_fn = data_dir .. '/twitter.choose2.adds' +valid_fn = data_dir .. '/twitter.valid.adds' +test_fn = data_dir .. '/comm.test.choose-ppl.adds' +vocab_fn = data_dir .. '/twitter.choose.train.vocab' + +--qdata_dir = root_dir .. '/ptb/questionGen/gen' + +global_conf = { + lrate = 0.15, wcost = 1e-5, momentum = 0, clip_t = 5, + cumat_type = nerv.CuMatrixFloat, + mmat_type = nerv.MMatrixFloat, + nn_act_default = 0, + + hidden_size = 300, + layer_num = 1, + chunk_size = 15, + batch_size = 32, + max_iter = 30, + lr_decay = 1.003, + decay_iter = 10, + param_random = function() return (math.random() / 5 - 0.1) end, + dropout_str = "0.5", + + train_fn = train_fn, + valid_fn = valid_fn, + test_fn = test_fn, + vocab_fn = vocab_fn, + max_sen_len = 32, + sche_log_pre = "[SCHEDULER]:", + log_w_num = 40000, --give a message when log_w_num words have been processed + timer = nerv.Timer(), + work_dir_base = root_dir .. '/twitter_new/EXP-nerv/grulm_v1.0' +} + +else + +valid_fn = '/home/slhome/txh18/workspace/nerv/nerv/nerv/examples/lmptb/m-tests/some-text-chn' +train_fn = '/home/slhome/txh18/workspace/nerv/nerv/nerv/examples/lmptb/m-tests/some-text-chn' +test_fn = '/home/slhome/txh18/workspace/nerv/nerv/nerv/examples/lmptb/m-tests/some-text-chn' +vocab_fn = '/home/slhome/txh18/workspace/nerv/nerv/nerv/examples/lmptb/m-tests/some-text-chn' + +global_conf = { + lrate = 0.01, wcost = 1e-5, momentum = 0, + cumat_type = nerv.CuMatrixFloat, + mmat_type = nerv.MMatrixFloat, + nn_act_default = 0, + + hidden_size = 20, + layer_num = 1, + chunk_size = 2, + batch_size = 10, + max_iter = 3, + param_random = function() return (math.random() / 5 - 0.1) end, + dropout_str = "0", + + train_fn = train_fn, + valid_fn = valid_fn, + test_fn = test_fn, + max_sen_len = 80, + lr_decay = 1.003, + decay_iter = 10, + vocab_fn = vocab_fn, + sche_log_pre = "[SCHEDULER]:", + log_w_num = 10, --give a message when log_w_num words have been processed + timer = nerv.Timer(), + work_dir_base = '/home/slhome/txh18/workspace/nerv/play/testEXP/tnn_lstmlm_test' +} + +end + +lr_half = false --can not be local, to be set by loadstring +start_iter = -1 +start_lr = nil +ppl_last = 100000 +commands_str = "sampling" --"train:test" +commands = {} +test_iter = -1 +--for testout(question) +q_file = "/home/slhome/txh18/workspace/ptb/questionGen/gen/ptb.test.txt.q10rs1_Msss.adds" + +if arg[2] ~= nil then + nerv.printf("%s applying arg[2](%s)...\n", global_conf.sche_log_pre, arg[2]) + loadstring(arg[2])() + nerv.LMUtil.wait(0.5) +else + nerv.printf("%s no user setting, all default...\n", global_conf.sche_log_pre) +end + +global_conf.work_dir = global_conf.work_dir_base .. 'h' .. global_conf.hidden_size .. 'l' .. global_conf.layer_num .. 'ch' .. global_conf.chunk_size .. 'ba' .. global_conf.batch_size .. 'slr' .. global_conf.lrate .. 'wc' .. global_conf.wcost .. 'dr' .. global_conf.dropout_str +global_conf.train_fn_shuf = global_conf.work_dir .. '/train_fn_shuf' +global_conf.train_fn_shuf_bak = global_conf.train_fn_shuf .. '_bak' +global_conf.param_fn = global_conf.work_dir .. "/params" +global_conf.dropout_list = nerv.SUtil.parse_schedule(global_conf.dropout_str) +global_conf.log_fn = global_conf.work_dir .. '/log_lstm_tnn_' .. commands_str ..os.date("_TT%m_%d_%X",os.time()) +global_conf.log_fn, _ = string.gsub(global_conf.log_fn, ':', '-') +commands = nerv.SUtil.parse_commands_set(commands_str) + +if start_lr ~= nil then + global_conf.lrate = start_lr +end + +nerv.printf("%s creating work_dir(%s)...\n", global_conf.sche_log_pre, global_conf.work_dir) +nerv.LMUtil.wait(2) +os.execute("mkdir -p "..global_conf.work_dir) +os.execute("cp " .. global_conf.train_fn .. " " .. global_conf.train_fn_shuf) + +--redirecting log outputs! +nerv.SUtil.log_redirect(global_conf.log_fn) +nerv.LMUtil.wait(2) + +----------------printing options--------------------------------- +nerv.printf("%s printing global_conf...\n", global_conf.sche_log_pre) +for id, value in pairs(global_conf) do + nerv.printf("%s:\t%s\n", id, tostring(value)) +end +nerv.LMUtil.wait(2) + +nerv.printf("%s printing training scheduling options...\n", global_conf.sche_log_pre) +nerv.printf("lr_half:\t%s\n", tostring(lr_half)) +nerv.printf("start_iter:\t%s\n", tostring(start_iter)) +nerv.printf("ppl_last:\t%s\n", tostring(ppl_last)) +nerv.printf("commands_str:\t%s\n", commands_str) +nerv.printf("test_iter:\t%s\n", tostring(test_iter)) +nerv.printf("%s printing training scheduling end.\n", global_conf.sche_log_pre) +nerv.LMUtil.wait(2) +------------------printing options end------------------------------ + +math.randomseed(1) + +local vocab = nerv.LMVocab() +global_conf["vocab"] = vocab +nerv.printf("%s building vocab...\n", global_conf.sche_log_pre) +global_conf.vocab:build_file(global_conf.vocab_fn, false) +ppl_rec = {} + +local final_iter = -1 +if commands["test"] == 1 then + nerv.printf("===FINAL TEST===\n") + global_conf.sche_log_pre = "[SCHEDULER FINAL_TEST]:" + local tnn = load_net_tnn(global_conf, global_conf.fn_to_sample) + global_conf.dropout_rate = 0 + LMTrainer.lm_process_file_rnn(global_conf, global_conf.test_fn, tnn, false) --false update! +end --if commands["test"] + +if commands["sampling"] == 1 then + nerv.printf("===SAMPLE===\n") + global_conf.sche_log_pre = "[SCHEDULER SAMPLING]:" + local dagL = load_net_dagL(global_conf, global_conf.fn_to_sample) + --global_conf.dropout_rate = 0 + --LMTrainer.lm_process_file_rnn(global_conf, global_conf.test_fn, tnn, false) --false update! +end --if commands["sampling"] + + |