lyx_mirror/src/frontends/controllers/ButtonPolicies.C
Angus Leeming c4762f9452 Whitespace, only whitespace...
git-svn-id: svn://svn.lyx.org/lyx/lyx-devel/trunk@8682 a592a061-630c-0410-9148-cb99ea01b6c8
2004-04-20 08:51:15 +00:00

628 lines
19 KiB
C

/**
* \file ButtonPolicies.C
* This file is part of LyX, the document processor.
* Licence details can be found in the file COPYING.
*
* \author Allan Rae
*
* Full author contact details are available in file CREDITS.
*/
#include <config.h>
#include "ButtonPolicies.h"
#include "debug.h"
#include <string>
using std::endl;
using std::string;
namespace {
string const printState(ButtonPolicy::State const & state)
{
string output;
switch(state) {
case ButtonPolicy::INITIAL:
output = "INITIAL";
break;
case ButtonPolicy::VALID:
output = "VALID";
break;
case ButtonPolicy::INVALID:
output = "INVALID";
break;
case ButtonPolicy::APPLIED:
output = "APPLIED";
break;
case ButtonPolicy::RO_INITIAL:
output = "RO_INITIAL";
break;
case ButtonPolicy::RO_VALID:
output = "RO_VALID";
break;
case ButtonPolicy::RO_INVALID:
output = "RO_INVALID";
break;
case ButtonPolicy::RO_APPLIED:
output = "RO_APPLIED";
break;
case ButtonPolicy::BOGUS:
output = "BOGUS";
break;
}
return output;
}
string const printInput(ButtonPolicy::SMInput const & input)
{
string output;
switch (input) {
case ButtonPolicy::SMI_VALID:
output = "SMI_VALID";
break;
case ButtonPolicy::SMI_INVALID:
output = "SMI_INVALID";
break;
case ButtonPolicy::SMI_OKAY:
output = "SMI_OKAY";
break;
case ButtonPolicy::SMI_APPLY:
output = "SMI_APPLY";
break;
case ButtonPolicy::SMI_CANCEL:
output = "SMI_CANCEL";
break;
case ButtonPolicy::SMI_RESTORE:
output = "SMI_RESTORE";
break;
case ButtonPolicy::SMI_HIDE:
output = "SMI_HIDE";
break;
case ButtonPolicy::SMI_READ_ONLY:
output = "SMI_READ_ONLY";
break;
case ButtonPolicy::SMI_READ_WRITE:
output = "SMI_READ_WRITE";
break;
case ButtonPolicy::SMI_NOOP:
output = "SMI_NOOP";
break;
case ButtonPolicy::SMI_TOTAL:
output = "SMI_TOTAL";
break;
}
return output;
}
/// Helper function
void nextState(ButtonPolicy::State & state,
ButtonPolicy::SMInput in,
ButtonPolicy::StateMachine const & s_m,
char const * function_name = "nextState")
{
if (ButtonPolicy::SMI_NOOP == in) return;
ButtonPolicy::State tmp = s_m[state][in];
lyxerr[Debug::GUI] << "Transition from state "
<< printState(state) << " to state "
<< printState(tmp) << " after input "
<< printInput(in) << std::endl;
if (ButtonPolicy::BOGUS != tmp) {
state = tmp;
} else {
lyxerr << function_name
<< ": No transition for input "
<< printInput(in)
<< " from state "
<< printState(state)
<< endl;
}
}
} // namespace anon
/*-----------------------------PreferencesPolicy-----------------------------*/
PreferencesPolicy::PreferencesPolicy()
: state_(INITIAL),
outputs_(APPLIED + 1, ButtonPolicy::ALL_BUTTONS),
state_machine_(APPLIED + 1,
StateArray(int(SMI_TOTAL), ButtonPolicy::BOGUS))
{
// Build the state output map
outputs_[INITIAL] = CLOSE;
outputs_[VALID] = RESTORE | OKAY | APPLY | CANCEL;
outputs_[INVALID] = RESTORE | CANCEL;
outputs_[APPLIED] = OKAY | CLOSE;
// Build the state machine one state at a time
// NOTE: Since CANCEL and HIDE always go to INITIAL they are
// left out of the state machine and handled explicitly
// in input(). This won't necessarily be true for all
// policies though so I'll leave those two as distinct
// inputs rather than merge them. For example, a dialog
// that doesn't update it's input fields when reshown
// after being hidden needs a policy where CANCEL and
// HIDE are treated differently.
//
// State::INITIAL
state_machine_[INITIAL][SMI_READ_ONLY] = INITIAL;
state_machine_[INITIAL][SMI_READ_WRITE] = INITIAL;
state_machine_[INITIAL][SMI_VALID] = VALID;
state_machine_[INITIAL][SMI_INVALID] = INVALID;
// State::VALID
state_machine_[VALID][SMI_VALID] = VALID;
state_machine_[VALID][SMI_READ_ONLY] = VALID;
state_machine_[VALID][SMI_READ_WRITE] = VALID;
state_machine_[VALID][SMI_INVALID] = INVALID;
state_machine_[VALID][SMI_APPLY] = APPLIED;
state_machine_[VALID][SMI_OKAY] = INITIAL;
state_machine_[VALID][SMI_RESTORE] = INITIAL;
// State::INVALID
state_machine_[INVALID][SMI_VALID] = VALID;
state_machine_[INVALID][SMI_INVALID] = INVALID;
state_machine_[INVALID][SMI_READ_ONLY] = INVALID;
state_machine_[INVALID][SMI_READ_WRITE] = INVALID;
state_machine_[INVALID][SMI_RESTORE] = INITIAL;
// State::APPLIED
state_machine_[APPLIED][SMI_VALID] = VALID;
state_machine_[APPLIED][SMI_INVALID] = INVALID;
state_machine_[APPLIED][SMI_OKAY] = INITIAL;
state_machine_[APPLIED][SMI_READ_ONLY] = APPLIED;
state_machine_[APPLIED][SMI_READ_WRITE] = APPLIED;
}
void PreferencesPolicy::input(SMInput input)
{
// The APPLIED state is persistent. Next time the dialog is opened,
// the user will be able to press 'Save'.
if (SMI_CANCEL == input
|| SMI_HIDE == input) {
if (state_ != APPLIED)
state_ = INITIAL;
} else {
nextState(state_,
input,
state_machine_,
"PreferencesPolicy");
}
}
/*-------------------------------OkCancelPolicy------------------------------*/
OkCancelPolicy::OkCancelPolicy()
: state_(INITIAL),
outputs_(INVALID + 1, ButtonPolicy::ALL_BUTTONS),
state_machine_(INVALID + 1,
StateArray(int(SMI_TOTAL), ButtonPolicy::BOGUS))
{
// Build the state output map
outputs_[INITIAL] = CLOSE;
outputs_[VALID] = RESTORE | OKAY | CANCEL;
outputs_[INVALID] = RESTORE | CANCEL;
// Build the state machine one state at a time
// NOTE: Since CANCEL and HIDE always go to INITIAL they are
// left out of the state machine and handled explicitly
// in input()
//
// State::INITIAL
state_machine_[INITIAL][SMI_READ_ONLY] = INITIAL;
state_machine_[INITIAL][SMI_READ_WRITE] = INITIAL;
state_machine_[INITIAL][SMI_VALID] = VALID;
state_machine_[INITIAL][SMI_INVALID] = INVALID;
// State::VALID
state_machine_[VALID][SMI_VALID] = VALID;
state_machine_[VALID][SMI_READ_ONLY] = VALID;
state_machine_[VALID][SMI_READ_WRITE] = VALID;
state_machine_[VALID][SMI_INVALID] = INVALID;
state_machine_[VALID][SMI_OKAY] = INITIAL;
state_machine_[VALID][SMI_RESTORE] = INITIAL;
// State::INVALID
state_machine_[INVALID][SMI_VALID] = VALID;
state_machine_[INVALID][SMI_INVALID] = INVALID;
state_machine_[INVALID][SMI_READ_ONLY] = INVALID;
state_machine_[INVALID][SMI_READ_WRITE] = INVALID;
state_machine_[INVALID][SMI_RESTORE] = INITIAL;
}
void OkCancelPolicy::input(SMInput input)
{
//lyxerr << "OkCancelPolicy::input" << endl;
// CANCEL and HIDE always take us to INITIAL for all cases
if (SMI_CANCEL == input
|| SMI_HIDE == input) {
state_ = INITIAL;
} else {
nextState(state_, input, state_machine_, "OkCancelPolicy");
}
}
/*---------------------------OkCancelReadOnlyPolicy-------------------------*/
OkCancelReadOnlyPolicy::OkCancelReadOnlyPolicy()
: state_(INITIAL),
outputs_(RO_INVALID + 1, ButtonPolicy::ALL_BUTTONS),
state_machine_(RO_INVALID + 1,
StateArray(int(SMI_TOTAL), ButtonPolicy::BOGUS))
{
// Build the state output map
outputs_[INITIAL] = CLOSE;
outputs_[VALID] = RESTORE | OKAY | CANCEL;
outputs_[INVALID] = RESTORE | CANCEL;
outputs_[RO_INITIAL] = CLOSE;
outputs_[RO_VALID] = RESTORE | CANCEL;
outputs_[RO_INVALID] = RESTORE | CANCEL;
// Build the state machine one state at a time
// NOTE: Since CANCEL and HIDE always go to INITIAL they are
// left out of the state machine and handled explicitly
// in input()
//
// State::INITIAL
state_machine_[INITIAL][SMI_READ_WRITE] = INITIAL;
state_machine_[INITIAL][SMI_VALID] = VALID;
state_machine_[INITIAL][SMI_INVALID] = INVALID;
state_machine_[INITIAL][SMI_READ_ONLY] = RO_INITIAL;
// State::VALID
state_machine_[VALID][SMI_VALID] = VALID;
state_machine_[VALID][SMI_READ_WRITE] = VALID;
state_machine_[VALID][SMI_INVALID] = INVALID;
state_machine_[VALID][SMI_OKAY] = INITIAL;
state_machine_[VALID][SMI_RESTORE] = INITIAL;
state_machine_[VALID][SMI_READ_ONLY] = RO_VALID;
// State::INVALID
state_machine_[INVALID][SMI_INVALID] = INVALID;
state_machine_[INVALID][SMI_READ_WRITE] = INVALID;
state_machine_[INVALID][SMI_VALID] = VALID;
state_machine_[INVALID][SMI_RESTORE] = INITIAL;
state_machine_[INVALID][SMI_READ_ONLY] = RO_INVALID;
// State::RO_INITIAL
state_machine_[RO_INITIAL][SMI_READ_ONLY] = RO_INITIAL;
state_machine_[RO_INITIAL][SMI_VALID] = RO_VALID;
state_machine_[RO_INITIAL][SMI_INVALID] = RO_INVALID;
state_machine_[RO_INITIAL][SMI_READ_WRITE] = INITIAL;
// State::RO_VALID
state_machine_[RO_VALID][SMI_VALID] = RO_VALID;
state_machine_[RO_VALID][SMI_READ_ONLY] = RO_VALID;
state_machine_[RO_VALID][SMI_INVALID] = RO_INVALID;
state_machine_[RO_VALID][SMI_READ_WRITE] = VALID;
state_machine_[RO_VALID][SMI_RESTORE] = RO_INITIAL;
// State::RO_INVALID
state_machine_[RO_INVALID][SMI_READ_ONLY] = RO_INVALID;
state_machine_[RO_INVALID][SMI_INVALID] = RO_INVALID;
state_machine_[RO_INVALID][SMI_VALID] = RO_VALID;
state_machine_[RO_INVALID][SMI_READ_WRITE] = INVALID;
state_machine_[RO_INVALID][SMI_RESTORE] = RO_INITIAL;
}
void OkCancelReadOnlyPolicy::input(SMInput input)
{
//lyxerr << "OkCancelReadOnlyPolicy::input" << endl;
// CANCEL and HIDE always take us to INITIAL for all cases
if (SMI_CANCEL == input
|| SMI_HIDE == input) {
state_ = INITIAL;
} else {
nextState(state_,
input,
state_machine_,
"OkCancelReadOnlyPolicy");
}
}
/*--------------------------NoRepeatedApplyReadOnlyPolicy----------------------*/
NoRepeatedApplyReadOnlyPolicy::NoRepeatedApplyReadOnlyPolicy()
: state_(INITIAL),
outputs_(RO_INVALID + 1, ButtonPolicy::ALL_BUTTONS),
state_machine_(RO_INVALID + 1,
StateArray(int(SMI_TOTAL), ButtonPolicy::BOGUS))
{
// Build the state output map
outputs_[INITIAL] = CLOSE;
outputs_[VALID] = RESTORE | OKAY | APPLY | CANCEL;
outputs_[INVALID] = RESTORE | CANCEL;
outputs_[RO_INITIAL] = CLOSE;
outputs_[RO_VALID] = RESTORE | CANCEL;
outputs_[RO_INVALID] = RESTORE | CANCEL;
// Build the state machine one state at a time
// NOTE: Since CANCEL and HIDE always go to INITIAL they are
// left out of the state machine and handled explicitly
// in input()
//
// State::INITIAL
state_machine_[INITIAL][SMI_READ_WRITE] = INITIAL;
state_machine_[INITIAL][SMI_VALID] = VALID;
state_machine_[INITIAL][SMI_INVALID] = INVALID;
state_machine_[INITIAL][SMI_READ_ONLY] = RO_INITIAL;
// State::VALID
state_machine_[VALID][SMI_VALID] = VALID;
state_machine_[VALID][SMI_READ_WRITE] = VALID;
state_machine_[VALID][SMI_INVALID] = INVALID;
state_machine_[VALID][SMI_OKAY] = INITIAL;
state_machine_[VALID][SMI_APPLY] = INITIAL;
state_machine_[VALID][SMI_RESTORE] = INITIAL;
state_machine_[VALID][SMI_READ_ONLY] = RO_VALID;
// State::INVALID
state_machine_[INVALID][SMI_INVALID] = INVALID;
state_machine_[INVALID][SMI_READ_WRITE] = INVALID;
state_machine_[INVALID][SMI_VALID] = VALID;
state_machine_[INVALID][SMI_RESTORE] = INITIAL;
state_machine_[INVALID][SMI_READ_ONLY] = RO_INVALID;
// State::RO_INITIAL
state_machine_[RO_INITIAL][SMI_READ_ONLY] = RO_INITIAL;
state_machine_[RO_INITIAL][SMI_VALID] = RO_VALID;
state_machine_[RO_INITIAL][SMI_INVALID] = RO_INVALID;
state_machine_[RO_INITIAL][SMI_READ_WRITE] = INITIAL;
// State::RO_VALID
state_machine_[RO_VALID][SMI_VALID] = RO_VALID;
state_machine_[RO_VALID][SMI_READ_ONLY] = RO_VALID;
state_machine_[RO_VALID][SMI_INVALID] = RO_INVALID;
state_machine_[RO_VALID][SMI_READ_WRITE] = VALID;
state_machine_[RO_VALID][SMI_RESTORE] = RO_INITIAL;
// State::RO_INVALID
state_machine_[RO_INVALID][SMI_INVALID] = RO_INVALID;
state_machine_[RO_INVALID][SMI_READ_ONLY] = RO_INVALID;
state_machine_[RO_INVALID][SMI_VALID] = RO_VALID;
state_machine_[RO_INVALID][SMI_READ_WRITE] = INVALID;
state_machine_[RO_INVALID][SMI_RESTORE] = RO_INITIAL;
}
void NoRepeatedApplyReadOnlyPolicy::input(SMInput input)
{
//lyxerr << "NoReapeatedApplyReadOnlyPolicy::input" << endl;
// CANCEL and HIDE always take us to INITIAL for all cases
if (SMI_CANCEL == input
|| SMI_HIDE == input) {
state_ = INITIAL;
} else {
nextState(state_,
input,
state_machine_,
"NoRepeatedApplyReadOnlyPolicy");
}
}
/*--------------------------OkApplyCancelReadOnlyPolicy----------------------*/
OkApplyCancelReadOnlyPolicy::OkApplyCancelReadOnlyPolicy()
: state_(INITIAL),
outputs_(RO_APPLIED + 1, ButtonPolicy::ALL_BUTTONS),
state_machine_(RO_APPLIED + 1,
StateArray(int(SMI_TOTAL), ButtonPolicy::BOGUS))
{
// Build the state output map
outputs_[INITIAL] = CLOSE;
outputs_[VALID] = RESTORE | OKAY | APPLY | CANCEL;
outputs_[INVALID] = RESTORE | CANCEL;
outputs_[APPLIED] = OKAY | APPLY | CLOSE;
outputs_[RO_INITIAL] = CLOSE;
outputs_[RO_VALID] = RESTORE | CANCEL;
outputs_[RO_INVALID] = RESTORE | CANCEL;
outputs_[RO_APPLIED] = CLOSE;
// Build the state machine one state at a time
// NOTE: Since CANCEL and HIDE always go to INITIAL they are
// left out of the state machine and handled explicitly
// in input()
//
// State::INITIAL
state_machine_[INITIAL][SMI_READ_WRITE] = INITIAL;
state_machine_[INITIAL][SMI_VALID] = VALID;
state_machine_[INITIAL][SMI_INVALID] = INVALID;
state_machine_[INITIAL][SMI_READ_ONLY] = RO_INITIAL;
// State::VALID
state_machine_[VALID][SMI_VALID] = VALID;
state_machine_[VALID][SMI_READ_WRITE] = VALID;
state_machine_[VALID][SMI_INVALID] = INVALID;
state_machine_[VALID][SMI_OKAY] = INITIAL;
state_machine_[VALID][SMI_RESTORE] = INITIAL;
state_machine_[VALID][SMI_APPLY] = APPLIED;
state_machine_[VALID][SMI_READ_ONLY] = RO_VALID;
// State::INVALID
state_machine_[INVALID][SMI_INVALID] = INVALID;
state_machine_[INVALID][SMI_READ_WRITE] = INVALID;
state_machine_[INVALID][SMI_VALID] = VALID;
state_machine_[INVALID][SMI_RESTORE] = INITIAL;
state_machine_[INVALID][SMI_READ_ONLY] = RO_INVALID;
// State::APPLIED
state_machine_[APPLIED][SMI_APPLY] = APPLIED;
state_machine_[APPLIED][SMI_READ_WRITE] = APPLIED;
state_machine_[APPLIED][SMI_VALID] = VALID;
state_machine_[APPLIED][SMI_INVALID] = INVALID;
state_machine_[APPLIED][SMI_OKAY] = INITIAL;
state_machine_[APPLIED][SMI_READ_ONLY] = RO_APPLIED;
// State::RO_INITIAL
state_machine_[RO_INITIAL][SMI_READ_ONLY] = RO_INITIAL;
state_machine_[RO_INITIAL][SMI_VALID] = RO_VALID;
state_machine_[RO_INITIAL][SMI_INVALID] = RO_INVALID;
state_machine_[RO_INITIAL][SMI_READ_WRITE] = INITIAL;
// State::RO_VALID
state_machine_[RO_VALID][SMI_VALID] = RO_VALID;
state_machine_[RO_VALID][SMI_READ_ONLY] = RO_VALID;
state_machine_[RO_VALID][SMI_INVALID] = RO_INVALID;
state_machine_[RO_VALID][SMI_READ_WRITE] = VALID;
state_machine_[RO_VALID][SMI_RESTORE] = RO_INITIAL;
// State::RO_INVALID
state_machine_[RO_INVALID][SMI_INVALID] = RO_INVALID;
state_machine_[RO_INVALID][SMI_READ_ONLY] = RO_INVALID;
state_machine_[RO_INVALID][SMI_VALID] = RO_VALID;
state_machine_[RO_INVALID][SMI_READ_WRITE] = INVALID;
state_machine_[RO_INVALID][SMI_RESTORE] = RO_INITIAL;
// State::RO_APPLIED
state_machine_[RO_APPLIED][SMI_READ_ONLY] = RO_APPLIED;
state_machine_[RO_APPLIED][SMI_INVALID] = RO_INVALID;
state_machine_[RO_APPLIED][SMI_VALID] = RO_VALID;
state_machine_[RO_APPLIED][SMI_READ_WRITE] = APPLIED;
}
void OkApplyCancelReadOnlyPolicy::input(SMInput input)
{
//lyxerr << "OkApplyCancelReadOnlyPolicy::input" << endl;
// CANCEL and HIDE always take us to INITIAL for all cases
if (SMI_CANCEL == input
|| SMI_HIDE == input) {
state_ = INITIAL;
} else {
nextState(state_,
input,
state_machine_,
"OkApplyCancelReadOnlyPolicy");
}
}
/*--------------------------OkApplyCancelPolicy----------------------*/
OkApplyCancelPolicy::OkApplyCancelPolicy()
: state_(INITIAL),
outputs_(APPLIED + 1, ButtonPolicy::ALL_BUTTONS),
state_machine_(APPLIED + 1,
StateArray(int(SMI_TOTAL), ButtonPolicy::BOGUS))
{
// Build the state output map
outputs_[INITIAL] = CLOSE;
outputs_[VALID] = RESTORE | OKAY | APPLY | CANCEL;
outputs_[INVALID] = RESTORE | CANCEL;
outputs_[APPLIED] = OKAY | APPLY | CLOSE;
// Build the state machine one state at a time
// NOTE: Since CANCEL and HIDE always go to INITIAL they are
// left out of the state machine and handled explicitly
// in input()
//
// State::INITIAL
state_machine_[INITIAL][SMI_READ_ONLY] = INITIAL;
state_machine_[INITIAL][SMI_READ_WRITE] = INITIAL;
state_machine_[INITIAL][SMI_VALID] = VALID;
state_machine_[INITIAL][SMI_INVALID] = INVALID;
// State::VALID
state_machine_[VALID][SMI_VALID] = VALID;
state_machine_[VALID][SMI_READ_ONLY] = VALID;
state_machine_[VALID][SMI_READ_WRITE] = VALID;
state_machine_[VALID][SMI_INVALID] = INVALID;
state_machine_[VALID][SMI_OKAY] = INITIAL;
state_machine_[VALID][SMI_RESTORE] = INITIAL;
state_machine_[VALID][SMI_APPLY] = APPLIED;
// State::INVALID
state_machine_[INVALID][SMI_INVALID] = INVALID;
state_machine_[INVALID][SMI_READ_ONLY] = INVALID;
state_machine_[INVALID][SMI_READ_WRITE] = INVALID;
state_machine_[INVALID][SMI_VALID] = VALID;
state_machine_[INVALID][SMI_RESTORE] = INITIAL;
// State::APPLIED
state_machine_[APPLIED][SMI_APPLY] = APPLIED;
state_machine_[APPLIED][SMI_READ_ONLY] = APPLIED;
state_machine_[APPLIED][SMI_READ_WRITE] = APPLIED;
state_machine_[APPLIED][SMI_VALID] = VALID;
state_machine_[APPLIED][SMI_INVALID] = INVALID;
state_machine_[APPLIED][SMI_OKAY] = INITIAL;
}
void OkApplyCancelPolicy::input(SMInput input)
{
//lyxerr << "OkApplyCancelPolicy::input" << endl;
// CANCEL and HIDE always take us to INITIAL for all cases
if (SMI_CANCEL == input
|| SMI_HIDE == input) {
state_ = INITIAL;
} else {
nextState(state_,
input,
state_machine_,
"OkApplyCancelPolicy");
}
}
/*--------------------------NoRepeatedApplyPolicy----------------------*/
NoRepeatedApplyPolicy::NoRepeatedApplyPolicy()
: state_(INITIAL),
outputs_(INVALID + 1, ButtonPolicy::ALL_BUTTONS),
state_machine_(INVALID + 1,
StateArray(int(SMI_TOTAL), ButtonPolicy::BOGUS))
{
// Build the state output map
outputs_[INITIAL] = CLOSE;
outputs_[VALID] = RESTORE | OKAY | APPLY | CANCEL;
outputs_[INVALID] = RESTORE | CANCEL;
// Build the state machine one state at a time
// NOTE: Since CANCEL and HIDE always go to INITIAL they are
// left out of the state machine and handled explicitly
// in input()
//
// State::INITIAL
state_machine_[INITIAL][SMI_READ_ONLY] = INITIAL;
state_machine_[INITIAL][SMI_READ_WRITE] = INITIAL;
state_machine_[INITIAL][SMI_VALID] = VALID;
state_machine_[INITIAL][SMI_INVALID] = INVALID;
// State::VALID
state_machine_[VALID][SMI_VALID] = VALID;
state_machine_[VALID][SMI_READ_ONLY] = VALID;
state_machine_[VALID][SMI_READ_WRITE] = VALID;
state_machine_[VALID][SMI_INVALID] = INVALID;
state_machine_[VALID][SMI_OKAY] = INITIAL;
state_machine_[VALID][SMI_APPLY] = INITIAL;
state_machine_[VALID][SMI_RESTORE] = INITIAL;
// State::INVALID
state_machine_[INVALID][SMI_INVALID] = INVALID;
state_machine_[INVALID][SMI_READ_ONLY] = INVALID;
state_machine_[INVALID][SMI_READ_WRITE] = INVALID;
state_machine_[INVALID][SMI_VALID] = VALID;
state_machine_[INVALID][SMI_RESTORE] = INITIAL;
}
void NoRepeatedApplyPolicy::input(SMInput input)
{
//lyxerr << "NoRepeatedApplyPolicy::input" << endl;
// CANCEL and HIDE always take us to INITIAL for all cases
if (SMI_CANCEL == input
|| SMI_HIDE == input) {
state_ = INITIAL;
} else {
nextState(state_,
input,
state_machine_,
"NoRepeatedApplyPolicy");
}
}