The highest tagged major version is
README
¶
elog
Docs: GoDoc
elog provides a full infrastructure for recording data of all sorts at multiple time scales and evaluation modes (training, testing, validation, etc).
The elog.Item provides a full definition of each distinct item that is logged with a map of Write functions keyed by a scope string that reflects the time scale and mode. The same function can be used across multiple scopes, or a different function for each scope, etc.
The Items are written to the table in the order added, so you can take advantage of previously-computed item values based on the actual ordering of item code. For example, intermediate values can be stored / retrieved from Stats, or from other items on a log, e.g., using Context.LogItemFloat function.
The Items are then processed in CreateTables() to create a set of etable.Table tables to hold the data.
The elog.Logs struct holds all the relevant data and functions for managing the logging process.
-
Log(mode, time)does logging, adding a new row -
LogRow(mode, time, row)does logging at given row
Both of these functions automatically write incrementally to a tsv File if it has been opened.
The Context object is passed to the Item Write functions, and has all the info typically needed -- must call SetContext(stats, net) on the Logs to provide those elements. Write functions can do most standard things by calling methods on Context -- see that in Docs above for more info.
Scopes
Everything is organized according to a etime.ScopeKey, which is just a string, that is formatted to represent two factors: an evaluation mode (standard versions defined by etime.Modes enum) and a time scale (etime.Times enum).
Standard etime.Modes are:
TrainTestValidateAnalyze-- used for internal representational analysis functions such as PCA, ActRF, SimMat, etc.
Standard etime.Times are based on the Env TimeScales augmented with Leabra / Axon finer-grained scales, including:
CycleTrialEpochRun
Other arbitrary scope values can be used -- there are Scope versions of every method that take an arbitrary etime.ScopeKey that can be composed using the ScopeStr method from any two strings, along with the "plain" versions of these methods that take the standard mode and time enums for convenience. These enums can themselves also be extended but it is probably easier to just use strings.
Examples
The ra25 example has a fully updated implementation of this new logging infrastructure. The individual log Items are added in the logitems.go file, which keeps the main sim file smaller and easier to navigate. It is also a good idea to put the params in a separate params.go file, as we now do in this example.
Main Config and Log functions
The ConfigLogs function configures the items, creates the tables, and configures any other log-like entities including spike rasters.
func (ss *Sim) ConfigLogs() {
ss.ConfigLogItems()
ss.Logs.CreateTables()
ss.Logs.SetContext(&ss.Stats, ss.Net)
// don't plot certain combinations we don't use
ss.Logs.NoPlot(etime.Train, etime.Cycle)
ss.Logs.NoPlot(etime.Test, etime.Run)
// note: Analyze not plotted by default
ss.Logs.SetMeta(etime.Train, etime.Run, "LegendCol", "Params")
ss.Stats.ConfigRasters(ss.Net, ss.Net.LayersByClass())
}
There is one master Log function that handles any details associated with different levels of logging -- it is called with the scope elements, e.g., ss.Log(etime.Train, etime.Trial)
// Log is the main logging function, handles special things for different scopes
func (ss *Sim) Log(mode etime.Modes, time etime.Times) {
dt := ss.Logs.Table(mode, time)
row := dt.Rows
switch {
case mode == etime.Test && time == etime.Epoch:
ss.LogTestErrors()
case mode == etime.Train && time == etime.Epoch:
epc := ss.TrainEnv.Epoch.Cur
if (ss.PCAInterval > 0) && ((epc-1)%ss.PCAInterval == 0) { // -1 so runs on first epc
ss.PCAStats()
}
case time == etime.Cycle:
row = ss.Stats.Int("Cycle")
case time == etime.Trial:
row = ss.Stats.Int("Trial")
}
ss.Logs.LogRow(mode, time, row) // also logs to file, etc
if time == etime.Cycle {
ss.GUI.UpdateCyclePlot(etime.Test, ss.Time.Cycle)
} else {
ss.GUI.UpdatePlot(mode, time)
}
// post-logging special statistics
switch {
case mode == etime.Train && time == etime.Run:
ss.LogRunStats()
case mode == etime.Train && time == etime.Trial:
epc := ss.TrainEnv.Epoch.Cur
if (ss.PCAInterval > 0) && (epc%ss.PCAInterval == 0) {
ss.Log(etime.Analyze, etime.Trial)
}
}
}
Resetting logs
Often, at the end of the Log function, you need to reset logs at a lower level, after the data has been aggregated. This is critical for logs that add rows incrementally, and also when using MPI aggregation.
if time == etime.Epoch { // Reset Trial log after Epoch
ss.Logs.ResetLog(mode, etime.Trial)
}
MPI Aggregation
When splitting trials across different processors using mpi, you typically need to gather the trial-level data for aggregating at the epoch level. There is a function that handles this:
if ss.UseMPI && time == etime.Epoch { // Must gather data for trial level if doing epoch level
ss.Logs.MPIGatherTableRows(mode, etime.Trial, ss.Comm)
}
The function switches the aggregated table in place of the local table, so that all the usual functions accessing the trial data will work properly. Because of this, it is essential to do the ResetLog or otherwise call SetNumRows to restore the trial log back to the proper number of rows -- otherwise it will grow exponentially!
Additional stats
There are various additional analysis functions called here, for example this one that generates summary statistics about the overall performance across runs -- these are stored in the MiscTables in the Logs object:
// LogRunStats records stats across all runs, at Train Run scope
func (ss *Sim) LogRunStats() {
sk := etime.Scope(etime.Train, etime.Run)
lt := ss.Logs.TableDetailsScope(sk)
ix, _ := lt.NamedIdxView("RunStats")
spl := split.GroupBy(ix, []string{"Params"})
split.Desc(spl, "FirstZero")
split.Desc(spl, "PctCor")
ss.Logs.MiscTables["RunStats"] = spl.AggsToTable(etable.AddAggName)
}
Counter Items
All counters of interest should be written to estats Stats elements, whenever the counters might be updated, and then logging just reads those stats. Here's a StatCounters function:
// StatCounters saves current counters to Stats, so they are available for logging etc
// Also saves a string rep of them to the GUI, if the GUI is active
func (ss *Sim) StatCounters(train bool) {
ev := ss.TrainEnv
if !train {
ev = ss.TestEnv
}
ss.Stats.SetInt("Run", ss.TrainEnv.Run.Cur)
ss.Stats.SetInt("Epoch", ss.TrainEnv.Epoch.Cur)
ss.Stats.SetInt("Trial", ev.Trial.Cur)
ss.Stats.SetString("TrialName", ev.TrialName.Cur)
ss.Stats.SetInt("Cycle", ss.Time.Cycle)
ss.GUI.NetViewText = ss.Stats.Print([]string{"Run", "Epoch", "Trial", "TrialName", "Cycle", "TrlUnitErr", "TrlErr", "TrlCosDiff"})
}
Then they are easily logged -- just showing different Scope expressions here:
ss.Logs.AddItem(&elog.Item{
Name: "Run",
Type: etensor.INT64,
Plot: false,
Write: elog.WriteMap{
etime.Scope(etime.AllModes, etime.AllTimes): func(ctx *elog.Context) {
ctx.SetStatInt("Run")
}}})
ss.Logs.AddItem(&elog.Item{
Name: "Epoch",
Type: etensor.INT64,
Plot: false,
Write: elog.WriteMap{
etime.Scopes([]etime.Modes{etime.AllModes}, []etime.Times{etime.Epoch, etime.Trial}): func(ctx *elog.Context) {
ctx.SetStatInt("Epoch")
}}})
ss.Logs.AddItem(&elog.Item{
Name: "Trial",
Type: etensor.INT64,
Write: elog.WriteMap{
etime.Scope(etime.AllModes, etime.Trial): func(ctx *elog.Context) {
ctx.SetStatInt("Trial")
}}})
Performance Stats
Overall summary performance statistics have multiple Write functions for different scopes, performing aggregation over log data at lower levels:
ss.Logs.AddItem(&elog.Item{
Name: "UnitErr",
Type: etensor.FLOAT64,
Plot: false,
Write: elog.WriteMap{
etime.Scope(etime.AllModes, etime.Trial): func(ctx *elog.Context) {
ctx.SetStatFloat("TrlUnitErr")
}, etime.Scope(etime.AllModes, etime.Epoch): func(ctx *elog.Context) {
ctx.SetAgg(ctx.Mode, etime.Trial, agg.AggMean)
}, etime.Scope(etime.AllModes, etime.Run): func(ctx *elog.Context) {
ix := ctx.LastNRows(ctx.Mode, etime.Epoch, 5)
ctx.SetFloat64(agg.Mean(ix, ctx.Item.Name)[0])
}}})
Copy Stats from Testing (or any other log)
It is often convenient to have just one log file with both training and testing performance recorded -- this code copies over relevant stats from the testing epoch log to the training epoch log:
// Copy over Testing items
stats := []string{"UnitErr", "PctErr", "PctCor", "PctErr2", "CosDiff"}
for _, st := range stats {
stnm := st
tstnm := "Tst" + st
ss.Logs.AddItem(&elog.Item{
Name: tstnm,
Type: etensor.FLOAT64,
Plot: false,
Write: elog.WriteMap{
etime.Scope(etime.Train, etime.Epoch): func(ctx *elog.Context) {
ctx.SetFloat64(ctx.ItemFloat(etime.Test, etime.Epoch, stnm))
}}})
}
Layer Stats
Iterate over layers of interest (use LayersByClass function). It is essential to create a local variable inside the loop for the lnm variable, which is then captured by the closure (see https://github.com/golang/go/wiki/CommonMistakes):
// Standard stats for Ge and AvgAct tuning -- for all hidden, output layers
layers := ss.Net.LayersByClass("Hidden", "Target")
for _, lnm := range layers {
clnm := lnm
ss.Logs.AddItem(&elog.Item{
Name: clnm + "_ActAvg",
Type: etensor.FLOAT64,
Plot: false,
FixMax: false,
Range: minmax.F64{Max: 1},
Write: elog.WriteMap{
etime.Scope(etime.Train, etime.Epoch): func(ctx *elog.Context) {
ly := ctx.Layer(clnm).(axon.AxonLayer).AsAxon()
ctx.SetFloat32(ly.ActAvg.ActMAvg)
}}})
...
}
Here's how to log a projection variable:
ss.Logs.AddItem(&elog.Item{
Name: clnm + "_FF_AvgMaxG",
Type: etensor.FLOAT64,
Plot: false,
Range: minmax.F64{Max: 1},
Write: elog.WriteMap{
etime.Scope(etime.Train, etime.Trial): func(ctx *elog.Context) {
ffpj := cly.RecvPrjn(0).(*axon.Prjn)
ctx.SetFloat32(ffpj.GScale.AvgMax)
}, etime.Scope(etime.AllModes, etime.Epoch): func(ctx *elog.Context) {
ctx.SetAgg(ctx.Mode, etime.Trial, agg.AggMean)
}}})
Layer Activity Patterns
A log column can be a tensor of any shape -- the SetLayerTensor method on the Context grabs the data from the layer into a reused tensor (no memory churning after first initialization), and then stores that tensor into the log column.
// input / output layer activity patterns during testing
layers = ss.Net.LayersByClass("Input", "Target")
for _, lnm := range layers {
clnm := lnm
cly := ss.Net.LayerByName(clnm)
ss.Logs.AddItem(&elog.Item{
Name: clnm + "_Act",
Type: etensor.FLOAT64,
CellShape: cly.Shape().Shp,
FixMax: true,
Range: minmax.F64{Max: 1},
Write: elog.WriteMap{
etime.Scope(etime.Test, etime.Trial): func(ctx *elog.Context) {
ctx.SetLayerTensor(clnm, "Act")
}}})
PCA on Activity
Computing stats on the principal components of variance (PCA) across different input patterns is very informative about the nature of the internal representations in hidden layers. The estats package has support for this -- it is fairly expensive computationally so we only do this every N epochs (10 or so), calling this method:
// PCAStats computes PCA statistics on recorded hidden activation patterns
// from Analyze, Trial log data
func (ss *Sim) PCAStats() {
ss.Stats.PCAStats(ss.Logs.IdxView(etime.Analyze, etime.Trial), "ActM", ss.Net.LayersByClass("Hidden"))
ss.Logs.ResetLog(etime.Analyze, etime.Trial)
}
Here's how you record the data and log the resulting stats, using the Analyze EvalMode:
// hidden activities for PCA analysis, and PCA results
layers = ss.Net.LayersByClass("Hidden")
for _, lnm := range layers {
clnm := lnm
cly := ss.Net.LayerByName(clnm)
ss.Logs.AddItem(&elog.Item{
Name: clnm + "_ActM",
Type: etensor.FLOAT64,
CellShape: cly.Shape().Shp,
FixMax: true,
Range: minmax.F64{Max: 1},
Write: elog.WriteMap{
etime.Scope(etime.Analyze, etime.Trial): func(ctx *elog.Context) {
ctx.SetLayerTensor(clnm, "ActM")
}}})
ss.Logs.AddItem(&elog.Item{
Name: clnm + "_PCA_NStrong",
Type: etensor.FLOAT64,
Plot: false,
Write: elog.WriteMap{
etime.Scope(etime.Train, etime.Epoch): func(ctx *elog.Context) {
ctx.SetStatFloat(ctx.Item.Name)
}, etime.Scope(etime.AllModes, etime.Run): func(ctx *elog.Context) {
ix := ctx.LastNRows(ctx.Mode, etime.Epoch, 5)
ctx.SetFloat64(agg.Mean(ix, ctx.Item.Name)[0])
}}})
...
}
Error by Input Category
This item creates a tensor column that records the average error for each category of input stimulus (e.g., for images from object categories), using the split.GroupBy function for etable. The IdxView function (see also NamedIdxView) automatically manages the etable.IdxView indexed view onto a log table, which is used for all aggregation and further analysis of data, so that you can efficiently analyze filtered subsets of the original data.
ss.Logs.AddItem(&elog.Item{
Name: "CatErr",
Type: etensor.FLOAT64,
CellShape: []int{20},
DimNames: []string{"Cat"},
Plot: true,
Range: minmax.F64{Min: 0},
TensorIdx: -1, // plot all values
Write: elog.WriteMap{
etime.Scope(etime.Test, etime.Epoch): func(ctx *elog.Context) {
ix := ctx.Logs.IdxView(etime.Test, etime.Trial)
spl := split.GroupBy(ix, []string{"Cat"})
split.AggTry(spl, "Err", agg.AggMean)
cats := spl.AggsToTable(etable.ColNameOnly)
ss.Logs.MiscTables[ctx.Item.Name] = cats
ctx.SetTensor(cats.Cols[1])
}}})
Confusion matricies
The estats package has a Confusion object to manage computation of a confusion matirx -- see confusion for more info.
Closest Pattern Stat
The estats package has a ClosestPat function that grabs the activity from a given variable in a given layer, and compares it to a list of patterns in a table, returning the pattern that is closest to the layer activity pattern, using the Correlation metric, which is the most robust metric in terms of ignoring differences in overall activity levels. You can also compare that closest pattern name to a (list of) acceptable target names and use that as an error measure.
row, cor, cnm := ss.Stats.ClosestPat(ss.Net, "Output", "ActM", ss.Pats, "Output", "Name")
ss.Stats.SetString("TrlClosest", cnm)
ss.Stats.SetFloat("TrlCorrel", float64(cor))
tnm := ss.TrainEnv.TrialName
if cnm == tnm {
ss.Stats.SetFloat("TrlErr", 0)
} else {
ss.Stats.SetFloat("TrlErr", 1)
}
Activation-based Receptive Fields
The estats package has support for recording activation-based receptive fields (actrf), which are very useful for decoding what units represent.
First, initialize the ActRFs in the ConfigLogs function, using strings that specify the layer name to record activity from, followed by the source data for the receptive field, which can be anything that might help you understand what the units are responding to, including the name of another layer. If it is not another layer name, then the code will look for the name in the Stats.F32Tensors map of named tensors.
ss.Stats.SetF32Tensor("Image", &ss.TestEnv.Vis.ImgTsr) // image used for actrfs, must be there first
ss.Stats.InitActRFs(ss.Net, []string{"V4:Image", "V4:Output", "IT:Image", "IT:Output"}, "ActM")
To add tabs in the gui to visualize the resulting RFs, add this in your ConfigGui (note also adding a tab to visualize the input Image that is being presented to the network):
tg := ss.GUI.TabView.AddNewTab(etview.KiT_TensorGrid, "Image").(*etview.TensorGrid)
tg.SetStretchMax()
ss.GUI.SetGrid("Image", tg)
tg.SetTensor(&ss.TrainEnv.Vis.ImgTsr)
ss.GUI.AddActRFGridTabs(&ss.Stats.ActRFs)
At the relevant Trial level, call the function to update the RF data based on current network activity state:
ss.Stats.UpdateActRFs(ss.Net, "ActM", 0.01)
Here's a TestAll function that manages the testing of a large number of inputs to compute the RFs (often need a large amount of testing data to sample the space sufficiently to get meaningful results):
// TestAll runs through the full set of testing items
func (ss *Sim) TestAll() {
ss.TestEnv.Init(ss.TrainEnv.Run.Cur)
ss.Stats.ActRFs.Reset() // initialize prior to testing
for {
ss.TestTrial(true)
ss.Stats.UpdateActRFs(ss.Net, "ActM", 0.01)
_, _, chg := ss.TestEnv.Counter(env.Epoch)
if chg || ss.StopNow {
break
}
}
ss.Stats.ActRFsAvgNorm() // final
ss.GUI.ViewActRFs(&ss.Stats.ActRFs)
}
Representational Similarity Analysis (SimMat)
Cluster Plots
Documentation
¶
Index ¶
- Constants
- Variables
- type Context
- func (ctx *Context) ClosestPat(layNm, unitVar string, pats *etable.Table, colnm, namecol string) (int, float32, string)
- func (ctx *Context) ItemColTensor(mode etime.Modes, time etime.Times, itemNm string) etensor.Tensor
- func (ctx *Context) ItemColTensorScope(scope etime.ScopeKey, itemNm string) etensor.Tensor
- func (ctx *Context) ItemFloat(mode etime.Modes, time etime.Times, itemNm string) float64
- func (ctx *Context) ItemFloatScope(scope etime.ScopeKey, itemNm string) float64
- func (ctx *Context) ItemString(mode etime.Modes, time etime.Times, itemNm string) string
- func (ctx *Context) ItemStringScope(scope etime.ScopeKey, itemNm string) string
- func (ctx *Context) ItemTensor(mode etime.Modes, time etime.Times, itemNm string) etensor.Tensor
- func (ctx *Context) ItemTensorScope(scope etime.ScopeKey, itemNm string) etensor.Tensor
- func (ctx *Context) LastNRows(mode etime.Modes, time etime.Times, n int) *etable.IdxView
- func (ctx *Context) LastNRowsScope(sk etime.ScopeKey, n int) *etable.IdxView
- func (ctx *Context) Layer(layNm string) emer.Layer
- func (ctx *Context) SetAgg(mode etime.Modes, time etime.Times, ag agg.Aggs) float64
- func (ctx *Context) SetAggItem(mode etime.Modes, time etime.Times, itemNm string, ag agg.Aggs) float64
- func (ctx *Context) SetAggItemScope(scope etime.ScopeKey, itemNm string, ag agg.Aggs) float64
- func (ctx *Context) SetAggScope(scope etime.ScopeKey, ag agg.Aggs) float64
- func (ctx *Context) SetFloat32(val float32)
- func (ctx *Context) SetFloat64(val float64)
- func (ctx *Context) SetInt(val int)
- func (ctx *Context) SetLayerRepTensor(layNm, unitVar string) *etensor.Float32
- func (ctx *Context) SetLayerTensor(layNm, unitVar string) *etensor.Float32
- func (ctx *Context) SetStatFloat(name string)
- func (ctx *Context) SetStatInt(name string)
- func (ctx *Context) SetStatString(name string)
- func (ctx *Context) SetString(val string)
- func (ctx *Context) SetTable(sk etime.ScopeKey, lt *LogTable, row int)
- func (ctx *Context) SetTensor(val etensor.Tensor)
- type Item
- func (item *Item) CompileScopes()
- func (item *Item) HasMode(mode etime.Modes) bool
- func (item *Item) HasTime(time etime.Times) bool
- func (item *Item) SetEachScopeKey()
- func (item *Item) SetWriteFunc(mode etime.Modes, time etime.Times, theFunc WriteFunc)
- func (item *Item) SetWriteFuncAll(theFunc WriteFunc)
- func (item *Item) SetWriteFuncOver(modes []etime.Modes, times []etime.Times, theFunc WriteFunc)
- func (item *Item) WriteFunc(mode, time string) (WriteFunc, bool)
- type LogTable
- type Logs
- func (lg *Logs) AddCopyFromFloatItems(toMode etime.Modes, toTime etime.Times, fmMode etime.Modes, fmTime etime.Times, ...)
- func (lg *Logs) AddCounterItems(ctrs ...etime.Times)
- func (lg *Logs) AddErrStatAggItems(statName string, times ...etime.Times)
- func (lg *Logs) AddItem(item *Item)
- func (lg *Logs) AddLayerTensorItems(net emer.Network, varNm string, mode etime.Modes, etm etime.Times, ...)
- func (lg *Logs) AddPerTrlMSec(itemName string, times ...etime.Times)
- func (lg *Logs) AddStatAggItem(itemName, statName string, times ...etime.Times)
- func (lg *Logs) AddStatFloatNoAggItem(mode etime.Modes, etm etime.Times, stats ...string)
- func (lg *Logs) AddStatIntNoAggItem(mode etime.Modes, etm etime.Times, stats ...string)
- func (lg *Logs) AddStatStringItem(mode etime.Modes, etm etime.Times, stats ...string)
- func (lg *Logs) CloseLogFiles()
- func (lg *Logs) CompileAllScopes()
- func (lg *Logs) CreateTables() error
- func (lg *Logs) IdxView(mode etime.Modes, time etime.Times) *etable.IdxView
- func (lg *Logs) IdxViewScope(sk etime.ScopeKey) *etable.IdxView
- func (lg *Logs) InitErrStats()
- func (lg *Logs) ItemBindAllScopes(item *Item)
- func (lg *Logs) ItemByName(name string) (*Item, bool)
- func (lg *Logs) Log(mode etime.Modes, time etime.Times) *etable.Table
- func (lg *Logs) LogRow(mode etime.Modes, time etime.Times, row int) *etable.Table
- func (lg *Logs) LogRowScope(sk etime.ScopeKey, row int) *etable.Table
- func (lg *Logs) LogScope(sk etime.ScopeKey) *etable.Table
- func (lg *Logs) MPIGatherTableRows(mode etime.Modes, time etime.Times, comm *mpi.Comm)
- func (lg *Logs) MiscTable(name string) *etable.Table
- func (lg *Logs) NamedIdxView(mode etime.Modes, time etime.Times, name string) (*etable.IdxView, bool)
- func (lg *Logs) NamedIdxViewScope(sk etime.ScopeKey, name string) (*etable.IdxView, bool)
- func (lg *Logs) NewTable(mode, time string) *etable.Table
- func (lg *Logs) NoPlot(mode etime.Modes, time etime.Times)
- func (lg *Logs) NoPlotScope(sk etime.ScopeKey)
- func (lg *Logs) PlotItems(itemNames ...string)
- func (lg *Logs) ProcessItems()
- func (lg *Logs) ResetLog(mode etime.Modes, time etime.Times)
- func (lg *Logs) RunStats(stats ...string)
- func (lg *Logs) SetContext(stats *estats.Stats, net emer.Network)
- func (lg *Logs) SetFixMaxItems(max float64, itemNames ...string)
- func (lg *Logs) SetFixMinItems(min float64, itemNames ...string)
- func (lg *Logs) SetLogFile(mode etime.Modes, time etime.Times, fnm string)
- func (lg *Logs) SetMeta(mode etime.Modes, time etime.Times, key, val string)
- func (lg *Logs) SetMetaScope(sk etime.ScopeKey, key, val string)
- func (lg *Logs) Table(mode etime.Modes, time etime.Times) *etable.Table
- func (lg *Logs) TableDetails(mode etime.Modes, time etime.Times) *LogTable
- func (lg *Logs) TableDetailsScope(sk etime.ScopeKey) *LogTable
- func (lg *Logs) TableScope(sk etime.ScopeKey) *etable.Table
- func (lg *Logs) WriteItems(sk etime.ScopeKey, row int)
- func (lg *Logs) WriteLastRowToFile(lt *LogTable)
- type WriteFunc
- type WriteMap
Constants ¶
const ( // DTrue is deprecated -- just use true DTrue = true // DFalse is deprecated -- just use false DFalse = false )
const LogPrec = 4
LogPrec is precision for saving float values in logs
Variables ¶
var LogDir = ""
LogDir is a directory that is prefixed for saving log files
Functions ¶
This section is empty.
Types ¶
type Context ¶
type Context struct {
Logs *Logs `desc:"pointer to the Logs object with all log data"`
Stats *estats.Stats `desc:"pointer to stats"`
Net emer.Network `desc:"network"`
Item *Item `desc:"current log Item"`
Scope etime.ScopeKey `desc:"current scope key"`
Mode etime.Modes `desc:"current scope eval mode (if standard)"`
Time etime.Times `desc:"current scope timescale (if standard)"`
LogTable *LogTable `desc:"LogTable with extra data for the table"`
Table *etable.Table `desc:"current table to record value to"`
Row int `desc:"current row in table to write to"`
}
Context provides the context for logging Write functions. SetContext must be called on Logs to set the Stats and Net values Provides various convenience functions for setting log values and other commonly-used operations.
func (*Context) ClosestPat ¶
func (ctx *Context) ClosestPat(layNm, unitVar string, pats *etable.Table, colnm, namecol string) (int, float32, string)
ClosestPat finds the closest pattern in given column of given pats table to given layer activation pattern using given variable. Returns the row number, correlation value, and value of a column named namecol for that row if non-empty. Column must be etensor.Float32
func (*Context) ItemColTensor ¶ added in v1.3.19
ItemColTensor returns an etensor.Tensor of the entire column of given item name in log for given mode, time
func (*Context) ItemColTensorScope ¶ added in v1.3.19
ItemColTensorScope returns an etensor.Tensor of the entire column of given item name in log for given scope.
func (*Context) ItemFloat ¶
ItemFloat returns a float64 value of the last row of given item name in log for given mode, time
func (*Context) ItemFloatScope ¶
ItemFloatScope returns a float64 value of the last row of given item name in log for given scope.
func (*Context) ItemString ¶
ItemString returns a string value of the last row of given item name in log for given mode, time
func (*Context) ItemStringScope ¶
ItemStringScope returns a string value of the last row of given item name in log for given scope.
func (*Context) ItemTensor ¶ added in v1.3.19
ItemTensor returns an etensor.Tensor of the last row of given item name in log for given mode, time
func (*Context) ItemTensorScope ¶ added in v1.3.19
ItemTensorScope returns an etensor.Tensor of the last row of given item name in log for given scope.
func (*Context) LastNRows ¶
LastNRows returns an IdxView onto table for given scope with the last n rows of the table (only valid rows, if less than n). This index view is available later with the "LastNRows" name via NamedIdxView functions.
func (*Context) LastNRowsScope ¶
LastNRowsScope returns an IdxView onto table for given scope with the last n rows of the table (only valid rows, if less than n). This index view is available later with the "LastNRows" name via NamedIdxView functions.
func (*Context) Layer ¶
Layer returns layer by name as the emer.Layer interface -- you may then need to convert to a concrete type depending.
func (*Context) SetAgg ¶
SetAgg sets an aggregated scalar value computed from given eval mode and time scale with same Item name, to current item, row. returns aggregated value
func (*Context) SetAggItem ¶
func (ctx *Context) SetAggItem(mode etime.Modes, time etime.Times, itemNm string, ag agg.Aggs) float64
SetAggItem sets an aggregated scalar value computed from given eval mode and time scale with given Item name, to current item, row. returns aggregated value
func (*Context) SetAggItemScope ¶
SetAggItemScope sets an aggregated scalar value computed from another scope (ScopeKey) with given Item name, to current item, row. returns aggregated value
func (*Context) SetAggScope ¶
SetAggScope sets an aggregated scalar value computed from another scope (ScopeKey) with same Item name, to current item, row returns aggregated value
func (*Context) SetFloat32 ¶
SetFloat32 sets a float32 to current table, item, row
func (*Context) SetFloat64 ¶
SetFloat64 sets a float64 to current table, item, row
func (*Context) SetLayerRepTensor ¶ added in v1.1.55
SetLayerRepTensor sets tensor of representative Unit values on a layer for given variable
func (*Context) SetLayerTensor ¶
SetLayerTensor sets tensor of Unit values on a layer for given variable
func (*Context) SetStatFloat ¶
SetStatFloat sets a Stats Float of given name to current table, item, row
func (*Context) SetStatInt ¶
SetStatInt sets a Stats int of given name to current table, item, row
func (*Context) SetStatString ¶
SetStatString sets a Stats string of given name to current table, item, row
type Item ¶
type Item struct {
Name string `desc:"name of column -- must be unique for a table"`
Type etensor.Type `desc:"data type, using etensor types which are isomorphic with arrow.Type"`
CellShape []int `` /* 168-byte string literal not displayed */
DimNames []string `desc:"names of the dimensions within the CellShape -- 'Row' will be added to outer dimension"`
Write WriteMap `` /* 263-byte string literal not displayed */
Plot bool `desc:"Whether or not to plot it"`
Range minmax.F64 `desc:"The minimum and maximum values, for plotting"`
FixMin bool `desc:"Whether to fix the minimum in the display"`
FixMax bool `desc:"Whether to fix the maximum in the display"`
ErrCol string `desc:"Name of other item that has the error bar values for this item -- for plotting"`
TensorIdx int `desc:"index of tensor to plot -- defaults to 0 -- use -1 to plot all"`
Color string `desc:"specific color for plot -- uses default ordering of colors if empty"`
// following are updated in final Process step
Modes map[string]bool `desc:"map of eval modes that this item has a Write function for"`
Times map[string]bool `desc:"map of times that this item has a Write function for"`
}
Item describes one item to be logged -- has all the info for this item, across all scopes where it is relevant.
func (*Item) CompileScopes ¶
func (item *Item) CompileScopes()
CompileScopes compiles maps of modes and times where this item appears. Based on the final updated Write map
func (*Item) SetEachScopeKey ¶
func (item *Item) SetEachScopeKey()
SetEachScopeKey updates the Write map so that it only contains entries for a unique Mode,Time pair, where multiple modes and times may have originally been specified.
func (*Item) SetWriteFunc ¶
SetWriteFunc sets Write function for one mode, time
func (*Item) SetWriteFuncAll ¶
SetWriteFuncAll sets the Write function for all existing Modes and Times Can be used to replace a Write func after the fact.
func (*Item) SetWriteFuncOver ¶
SetWriteFuncOver sets the Write function over range of modes and times
type LogTable ¶
type LogTable struct {
Table *etable.Table `desc:"Actual data stored."`
Meta map[string]string `desc:"arbitrary meta-data for each table, e.g., hints for plotting: Plot = false to not plot, XAxisCol, LegendCol"`
IdxView *etable.IdxView `view:"-" desc:"Index View of the table -- automatically updated when a new row of data is logged to the table."`
NamedViews map[string]*etable.IdxView `` /* 196-byte string literal not displayed */
File *os.File `view:"-" desc:"File to store the log into."`
WroteHeaders bool `view:"-" desc:"true if headers for File have already been written"`
}
LogTable contains all the data for one log table
func NewLogTable ¶
NewLogTable returns a new LogTable entry for given table, initializing values
func (*LogTable) GetIdxView ¶
GetIdxView returns the index view for the whole table. It is reset to nil after log row is written, and if nil then it is initialized to reflect current rows.
func (*LogTable) NamedIdxView ¶
NamedIdxView returns a named Index View of the table, and true if this index view was newly created to show entire table (else false). This is used for additional data aggregation, filtering etc. It is reset to nil after log row is written, and if nil then it is initialized to reflect current rows as a starting point (returning true). Thus, the bool return value can be used for re-using cached indexes.
func (*LogTable) ResetIdxViews ¶
func (lt *LogTable) ResetIdxViews()
ResetIdxViews resets all IdxViews -- after log row is written
type Logs ¶
type Logs struct {
Tables map[etime.ScopeKey]*LogTable `desc:"Tables storing log data, auto-generated from Items."`
MiscTables map[string]*etable.Table `desc:"holds additional tables not computed from items -- e.g., aggregation results, intermediate computations, etc"`
Items []*Item `` /* 167-byte string literal not displayed */
Context Context `` /* 171-byte string literal not displayed */
Modes map[string]bool `view:"-" desc:"All the eval modes that appear in any of the items of this log."`
Times map[string]bool `view:"-" desc:"All the timescales that appear in any of the items of this log."`
ItemIdxMap map[string]int `view:"-" desc:"map of item indexes by name, for rapid access to items if they need to be modified after adding."`
TableOrder []etime.ScopeKey `view:"-" desc:"sorted order of table scopes"`
}
Logs contains all logging state and API for doing logging. do AddItem to add any number of items, at different eval mode, time scopes. Each Item has its own Write functions, at each scope as neeeded. Then call CreateTables to generate log Tables from those items. Call Log with a scope to add a new row of data to the log and ResetLog to reset the log to empty.
func (*Logs) AddCopyFromFloatItems ¶ added in v1.3.16
func (lg *Logs) AddCopyFromFloatItems(toMode etime.Modes, toTime etime.Times, fmMode etime.Modes, fmTime etime.Times, prefix string, itemNames ...string)
AddCopyFromFloatItems adds items that copy from one log to another, adding the given prefix string to each. float64 type.
func (*Logs) AddCounterItems ¶ added in v1.3.3
AddCounterItems adds given Int counters from Stats, typically by recording looper counter values to Stats.
func (*Logs) AddErrStatAggItems ¶ added in v1.3.3
AddErrStatAggItems adds Err, PctErr, PctCor items recording overall performance from the given statName statistic (e.g., "TrlErr") across the 3 time scales, ordered from higher to lower, e.g., Run, Epoch, Trial.
func (*Logs) AddItem ¶
AddItem adds an item to the list. The items are stored in the order they are added, and this order is used for calling the item Write functions, so you can rely on that ordering for any sequential dependencies across items (e.g., in using intermediate computed values). Note: item names must be unique -- use different scopes for Write functions where needed.
func (*Logs) AddLayerTensorItems ¶ added in v1.3.9
func (lg *Logs) AddLayerTensorItems(net emer.Network, varNm string, mode etime.Modes, etm etime.Times, layClasses ...string)
AddLayerTensorItems adds tensor recording items for given variable, classes of layers, mode and time (e.g., Test, Trial). If another item already exists for a different mode / time, this is added to it so there aren't any duplicate items.
func (*Logs) AddPerTrlMSec ¶ added in v1.3.3
AddPerTrlMSec adds a log item that records PerTrlMSec log item that records the time taken to process one trial. itemName is PerTrlMSec by default. and times are relevant 3 times to record, ordered higher to lower, e.g., Run, Epoch, Trial
func (*Logs) AddStatAggItem ¶ added in v1.3.3
AddStatAggItem adds a Float64 stat that is aggregated across the 3 time scales, ordered from higher to lower, e.g., Run, Epoch, Trial. The itemName is what is saved in the table, and statName is the source statistic in stats at the lowest level.
func (*Logs) AddStatFloatNoAggItem ¶ added in v1.3.3
AddStatFloatNoAggItem adds float statistic(s) of given names for just one mode, time, with no aggregation. If another item already exists for a different mode / time, this is added to it so there aren't any duplicate items.
func (*Logs) AddStatIntNoAggItem ¶ added in v1.3.3
AddStatIntNoAggItem adds int statistic(s) of given names for just one mode, time, with no aggregation. If another item already exists for a different mode / time, this is added to it so there aren't any duplicate items.
func (*Logs) AddStatStringItem ¶ added in v1.3.13
AddStatStringItem adds string stat item(s) to given mode and time (e.g., Allmodes, Trial). If another item already exists for a different mode / time, this is added to it so there aren't any duplicate items.
func (*Logs) CloseLogFiles ¶
func (lg *Logs) CloseLogFiles()
CloseLogFiles closes all open log files
func (*Logs) CompileAllScopes ¶
func (lg *Logs) CompileAllScopes()
CompileAllScopes gathers all the modes and times used across all items
func (*Logs) CreateTables ¶
CreateTables creates the log tables based on all the specified log items It first calls ProcessItems to instantiate specific scopes.
func (*Logs) IdxView ¶
IdxView returns the Index View of a log table for a given mode, time This is used for data aggregation functions over the entire table. It should not be altered (don't Filter!) and always shows the whole table. See NamedIdxView for custom index views.
func (*Logs) IdxViewScope ¶
IdxViewScope returns the Index View of a log table for given etime.ScopeKey This is used for data aggregation functions over the entire table. This view should not be altered and always shows the whole table. See NamedIdxView for custom index views.
func (*Logs) InitErrStats ¶ added in v1.3.4
func (lg *Logs) InitErrStats()
InitErrStats initializes the base stats variables used for AddErrStatAggItems: TrlErr, FirstZero, LastZero, NZero
func (*Logs) ItemBindAllScopes ¶
ItemBindAllScopes translates the AllModes or AllTimes scopes into a concrete list of actual Modes and Times used across all items
func (*Logs) ItemByName ¶ added in v1.3.9
ItemByName returns item by given name, false if not found
func (*Logs) Log ¶
Log performs logging for given mode, time. Adds a new row and Writes all the items. and saves data to file if open.
func (*Logs) LogRow ¶
LogRow performs logging for given mode, time, at given row. Saves data to file if open.
func (*Logs) LogRowScope ¶
LogRowScope performs logging for given etime.ScopeKey, at given row. Saves data to file if open.
func (*Logs) LogScope ¶
LogScope performs logging for given etime.ScopeKey Adds a new row and Writes all the items. and saves data to file if open.
func (*Logs) MPIGatherTableRows ¶ added in v1.1.57
MPIGatherTableRows calls empi.GatherTableRows on the given log table using an "MPI" suffixed MiscTable that is then switched out with the main table, so that any subsequent aggregation etc operates as usual on the full set of data. IMPORTANT: this switch means that the number of rows in the table MUST be reset back to either 0 (e.g., ResetLog) or the target number of rows, after the table is used, otherwise it will grow exponentially!
func (*Logs) MiscTable ¶
MiscTable gets a miscellaneous table that is not specified or typically expected
func (*Logs) NamedIdxView ¶
func (lg *Logs) NamedIdxView(mode etime.Modes, time etime.Times, name string) (*etable.IdxView, bool)
NamedIdxView returns a named Index View of a log table for a given mode, time. This is used for additional data aggregation, filtering etc. When accessing the first time during writing a new row of the log, it automatically shows a view of the entire table and returns true for 2nd arg. You can then filter, sort, etc as needed. Subsequent calls within same row Write will return the last filtered view, and false for 2nd arg -- can then just reuse view.
func (*Logs) NamedIdxViewScope ¶
NamedIdxView returns a named Index View of a log table for a given mode, time. This is used for additional data aggregation, filtering etc. When accessing the first time during writing a new row of the log, it automatically shows a view of the entire table and returns true for 2nd arg. You can then filter, sort, etc as needed. Subsequent calls within same row Write will return the last filtered view, and false for 2nd arg -- can then just reuse view.
func (*Logs) NoPlot ¶
NoPlot sets meta data to not plot for given scope mode, time. Typically all combinations of mode and time end up being generated, so you have to turn off plotting of cases not used.
func (*Logs) NoPlotScope ¶
NoPlotScope sets meta data to not plot for given scope mode, time. Typically all combinations of mode and time end up being generated, so you have to turn off plotting of cases not used.
func (*Logs) ProcessItems ¶
func (lg *Logs) ProcessItems()
ProcessItems is called in CreateTables, after all items have been added. It instantiates All scopes, and compiles multi-list scopes into single mode, item pairs
func (*Logs) ResetLog ¶
ResetLog resets the log for given mode, time, at given row. by setting number of rows = 0 The IdxViews are reset too.
func (*Logs) RunStats ¶ added in v1.3.3
RunStats records descriptive values for given stats across all runs, at Train Run scope, saving to RunStats misc table
func (*Logs) SetContext ¶
SetContext sets the Context for logging Write functions to give general access to the stats and network
func (*Logs) SetFixMaxItems ¶ added in v1.3.16
SetFixMaxItems sets the FixMax flag and Range Max val for given items
func (*Logs) SetFixMinItems ¶ added in v1.3.16
SetFixMinItems sets the FixMin flag and Range Min val for given items
func (*Logs) SetLogFile ¶
SetLogFile sets the log filename for given scope
func (*Logs) SetMetaScope ¶
SetMetaScope sets table meta data for given scope
func (*Logs) TableDetails ¶
TableDetails returns the LogTable record of associated info for given table
func (*Logs) TableDetailsScope ¶
TableDetailsScope returns the LogTable record of associated info for given table
func (*Logs) TableScope ¶
TableScope returns the table for given etime.ScopeKey
func (*Logs) WriteItems ¶
WriteItems calls all item Write functions within given scope providing the relevant Context for the function. Items are processed in the order added, to enable sequential dependencies to be used.
func (*Logs) WriteLastRowToFile ¶
WriteLastRowToFile writes the last row of table to file, if File != nil
Source Files