This class manages statistics to be queried asynchronously. Way of use : An operator describes a STAT form then fills it according to its progression. This produces a state of advancement of the process. This state can then be queried asynchronously : typically it is summarised as a percentage. There are also an identification of the current state, and informations on processed volume.
More...
|
| Interface_STAT (const Standard_CString title="") |
| Creates a STAT form. At start, one default phase is defined, with one default step. Then, it suffises to start with a count of items (and cycles if several) then record items, to have a queryable report. More...
|
|
| Interface_STAT (const Interface_STAT &other) |
| used when starting More...
|
|
Interface_STAT & | operator= (const Interface_STAT &theOther) |
| Assignment. More...
|
|
void | Internals (Handle< TCollection_HAsciiString > &tit, Standard_Real &total, Handle< TColStd_HSequenceOfAsciiString > &phn, Handle< TColStd_HSequenceOfReal > &phw, Handle< TColStd_HSequenceOfInteger > &phdeb, Handle< TColStd_HSequenceOfInteger > &phfin, Handle< TColStd_HSequenceOfReal > &stw) const |
| Returns fields in once, without copying them, used for copy when starting. More...
|
|
void | AddPhase (const Standard_Real weight, const Standard_CString name="") |
| Adds a new phase to the description. The first one after Create replaces the default unique one. More...
|
|
void | AddStep (const Standard_Real weight=1) |
| Adds a new step for the last added phase, the default unique one if no AddPhase has already been added Warning : AddStep before the first AddPhase are cancelled. More...
|
|
void | Description (Standard_Integer &nbphases, Standard_Real &total, Standard_CString &title) const |
| Returns global description (cumulated weights of all phases, count of phases,1 for default, and title) More...
|
|
void | Phase (const Standard_Integer num, Standard_Integer &n0step, Standard_Integer &nbstep, Standard_Real &weight, Standard_CString &name) const |
| Returns description of a phase, given its rank (n0 for first step, count of steps, default gives one; weight, name) More...
|
|
Standard_Real | Step (const Standard_Integer num) const |
| Returns weight of a Step, related to the cumul given for the phase. <num> is given by <n0step> + i, i between 1 and <nbsteps> (default gives n0step < 0 then weight is one) More...
|
|
void | Start (const Standard_Integer items, const Standard_Integer cycles=1) const |
| Starts a STAT on its first phase (or its default one) <items> gives the total count of items, <cycles> the count of cycles If <cycles> is more than one, the first Cycle must then be started by NextCycle (NextStep/NextItem are ignored). If it is one, NextItem/NextStep can then be called. More...
|
|
|
static void | StartCount (const Standard_Integer items, const Standard_CString title="") |
| Starts a default STAT, with no phase, no step, ready to just count items. <items> gives the total count of items Hence, NextItem is available to directly count. More...
|
|
static void | NextPhase (const Standard_Integer items, const Standard_Integer cycles=1) |
| Commands to resume the preceeding phase and start a new one <items> and <cycles> as for Start, but for this new phase Ignored if count of phases is already passed If <cycles> is more than one, the first Cycle must then be started by NextCycle (NextStep/NextItem are ignored). If it is one, NextItem/NextStep can then be called. More...
|
|
static void | SetPhase (const Standard_Integer items, const Standard_Integer cycles=1) |
| Changes the parameters of the phase to start To be used before first counting (i.e. just after NextPhase) Can be used by an operator which has to reajust counts on run. More...
|
|
static void | NextCycle (const Standard_Integer items) |
| Commands to resume the preceeding cycle and start a new one, with a count of items Ignored if count of cycles is already passed Then, first step is started (or default one) NextItem can be called for the first step, or NextStep to pass to the next one. More...
|
|
static void | NextStep () |
| Commands to resume the preceeding step of the cycle Ignored if count of steps is already passed NextItem can be called for this step, NextStep passes to next. More...
|
|
static void | NextItem (const Standard_Integer nbitems=1) |
| Commands to add an item in the current step of the current cycle of the current phase By default, one item per call, can be overpassed Ignored if count of items of this cycle is already passed. More...
|
|
static void | End () |
| Commands to declare the process ended (hence, advancement is forced to 100 %) More...
|
|
static Standard_CString | Where (const Standard_Boolean phase=Standard_True) |
| Returns an identification of the STAT : <phase> True (D) : the name of the current phase <phase> False : the title of the current STAT. More...
|
|
static Standard_Integer | Percent (const Standard_Boolean phase=Standard_False) |
| Returns the advancement as a percentage : <phase> True : inside the current phase <phase> False (D) : relative to the whole process. More...
|
|
This class manages statistics to be queried asynchronously. Way of use : An operator describes a STAT form then fills it according to its progression. This produces a state of advancement of the process. This state can then be queried asynchronously : typically it is summarised as a percentage. There are also an identification of the current state, and informations on processed volume.
A STAT form can be described once for all (as static). It describes the stream of the process (see later), in terms of phases, cycles, steps, with estimated weights. But it brings no current data.
One STAT at a time is active for filling and querying. It is used to control phasing, weighting ... Specific data for execution are given when running on active STAT : counts of items ... Data for query are then recorded and can be accessed at any time, asynchronously.
A STAT is organised as follows :
- it can be split into PHASES (by default, there is none, and all process takes place in one "default" phase)
- each phase is identified by a name and is attached a weight -> the sum of the weights is used to compute relative weights
- for each phase, or for the unique default phase if none : – the process works on a list of ITEMS – by default, all the items are processed in once – but this list can be split into CYCLES, each one takes a sub-list : the weight of each cycle is related to its count of items – a cycle can be split into STEPS, by default there are none then one "default step" is considered – each step is attached a weight -> the sum of the weights of steps is used to compute relative weights of the steps in each cycle -> all the cycles of a phase have the same organisation
Hence, when defining the STAT form, the phases have to be described. If no weight is precisely known, give 1. for all... No phase description will give only one "default" phase For each phase, a typical cycle can be described by its steps. Here too, for no weight precisely known, give 1. for all...
For executing, activate a STAT to begin count. Give counts of items and cycles for the first phase (for the unique default one if no phasing is described) Else, give count of items and cycles for each new phase. Class methods allow also to set next cycle (given count of items), next step in cycle (if more then one), next item in step.