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Bon. GTK4 et la console sont deux threads distincts qui n'interagissent pas. Fin de l'essai et nettoyage.

This commit is contained in:
Jean Sirmai 2024-09-05 13:14:46 +02:00
parent 5ed02a396e
commit eddcb68911
Signed by: jean
GPG Key ID: FB3115C340E057E3
8 changed files with 220 additions and 407 deletions
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219
(notes)
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@ -245,3 +245,222 @@ GtkBox *get_CONTROL_box(){
return CONTROL_box;
}
*/
Legacy, again...
/////////////////////////////////////////////////////////////////////////////////////////////////////
void fsm_poetic_engine() // 2024-08-31
{
int milliseconds = 100;
struct timespec rem;
struct timespec req= {
(int)(milliseconds / 1000), /* secs (Must be Non-Negative) */
(milliseconds % 1000) * 1000000 /* nano (Must be in range of 0 to 999999999) */
};
while (true) {
printf(" | O . |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | O . |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | DO * |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | D=-O * |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | D=-- -O * |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | =- - - O * |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | -- O * |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | - O (*) |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | O (*) |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | O (*) |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | O (*) |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | O*) |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | (*O |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | (*) O |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | (*) O |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | (*) O |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | * O |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | * O |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | * O |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | * O |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | * O |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | O |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | O * |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | O . |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | O . |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | O . .|\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | O . .|\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | D . . |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | D- . . |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | D =- . . |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | D = --- . . |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | D =-- . . |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | D=- . .|\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | D- . .|\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
}
}
///////////////////////////////////////////////////////////////////////////////////////////////////////
My old engine in java...
///////////////
package engine;
import java.lang.System.out;
import measures.MeasuresManager;
import resources.P;
import rule.FormulasManager;
import rule.FormulasManagerAccess;
import session.ViewControls;
import state.StateManager;
import state.StateManagerLocal;
import views.MODEL;
import views.ViewsManagerAccess;
/* 2020-11 [prototype 0.0]
MonoThread executes a while(true) loop with two instructions:
(1) search a place where a transition can be done
(2) do the transition
while (true)
if (session.MainView.isStartStopButtonSelected())
{
state.StateManagerLocal.chooseLocalOrigin(false);
new SingleTransition(true);
}
*/
public class SingleTransition {
protected volatile boolean is_done = false;
protected volatile String elapsed;
public SingleTransition (boolean mono) {if (mono) perform_a_transition();}
private synchronized static final void perform_a_transition()
{
// if (step_by_step) StateManagerLocal.circlePresentState();
if(ViewControls.isDoSelected()) SingleTransition.execute_do (SingleTransition.prepare_do (false));
else if(ViewControls.isUndoSelected()) SingleTransition.execute_undo(SingleTransition.prepare_undo(false));
else if(ViewControls.isRedoSelected()) SingleTransition.execute_redo(SingleTransition.prepare_redo(false));
// if (ViewControls.undo_buffer < UNDO_STACK_SIZE) ViewControls.setTimeBufferBar(ViewControls.undo_buffer); MainView.addElapsedTime();
}
public static final int prepare_do (final boolean step_by_step)
{
// ThreadsManager.addCycle(); // {nb_cycles ++;} This cycle can be inefficient if no formula can be applied
selected_formula = FormulasManager.iterateToFindAFormula();
// if(selected_formula > -1) out.println(" prepare_do "+ state.StateManagerLocal.getInfoDebug());
return selected_formula;
}
public static final void execute_do (final int formula_key) { // formula.doActions(); out.print(" execute_do: formula key=" + formula_key +" ");
if (formula_key < 0) { if(StateManagerLocal.comment_origins) out.println("execute_do failure: formula key=" + formula_key); return;}
MeasuresManager.startMeasuringAFormulaEffect(formula_key); // out.println("execute_do formula name = "+ FormulasManager.formula.get(formula_key).name);
FormulasManager.getFormula().get (formula_key) .doActions(); // {for (i = 0; i < action.length; i++) action[i].doAction (); StateManagerLocal.endRule(action_swap, action_name);}
MeasuresManager.endMeasuringAFormulaEffect(formula_key);
writePresentState (formula_key);
present ++; if (present == UNDO_STACK_SIZE) present = 0; // MainView.setStartStopButtonSelected(false);// if (present == 1); {MainView.setStartStopButtonSelected(false); } //out.println("MonoThread.execute_do > stop ! (present == 1)");
ViewControls .execDo();
doRepaint();
if (DO_UNDO_REDO_comment) comment_do(formula_key); // if (MonoThreadTest.present == 12) MainView.setStartStopButtonSelected(false);
}
public static final int prepare_undo (final boolean step_by_step) { // MonoThreadTest.present --; return MonoThreadTest. f [MonoThreadTest.present];
if (ViewControls.isUndoBufferEmpty()) {out.println("prepare_undo stop !");} // undo_buffer is always >= 0
else {present --; if (present == -1) present = UNDO_STACK_SIZE -1; ViewControls.execUndo();}
final int formula_key = readPresentState(step_by_step);
// if (step_by_step) StateManagerLocal.circlePresentState();
return formula_key;
}
public static final void execute_undo (final int formula_key) { // formula.unDoActions(); {for (i = 0; i < action.length; i++) ...}
FormulasManager.getFormula().get (formula_key) .unDoActions(); // {for (i = 0; i < action.length; i++) action[i].doAction (); StateManagerLocal.endRule(action_swap, action_name);}
ViewControls.setRedoSelected();
// StateManagerLocal.circlePresentState();
// ThreadsManager.removeEfficientCycle(); // {nb_effective_cycles --;}
doRepaint();
if (DO_UNDO_REDO_comment) comment_undo();
}
public static final int prepare_redo (final boolean step_by_step) { // return MonoThreadTest. f [MonoThreadTest.present];
final int formula_key = readPresentState(step_by_step);
// ThreadsManager.addEfficientCycle(); // {nb_effective_cycles ++;}
// if (step_by_step) StateManagerLocal.circlePresentState();
return formula_key;
}
public static final void execute_redo (final int formula_key) { // formula.doActions(); {for (i = 0; i < action.length; i++) ...}
// the redo_buffer is always >= 0 (if the re_do buffer is empty, the re_do button is deactivated)
if (! ViewControls.isRedoBufferEmpty()) {
FormulasManager.getFormula().get (formula_key).doActions(); // {for (i = 0; i < action.length; i++) action[i].doAction (); StateManagerLocal.endRule(action_swap, action_name);}
present ++; if (present == UNDO_STACK_SIZE) present = 0;
ViewControls.execRedo();
}
ViewControls.setUndoSelected();
doRepaint();
if (DO_UNDO_REDO_comment) comment_redo();
}
public final static void writePresentState (final int formula_key) { // x [present] = StateManagerLocal.local_space_origin_X; ...
formula [present] = (short) formula_key;
o [present] = (byte) StateManagerLocal.getReferenceOrientation_1();
switch(StateManager.space_dimension) {
case THREE: z [present] = (byte) StateManagerLocal.local_space_origin_Z; // no break;
case TWO: y [present] = (byte) StateManagerLocal.local_space_origin_Y; // no break;
case ONE: x [present] = (byte) StateManagerLocal.local_space_origin_X; // no break;
default:;}
}
private final static int readPresentState (final boolean step_by_step) { // StateManagerLocal.local_space_origin_X = x [present]; ...
switch(StateManager.space_dimension) {
case THREE : StateManagerLocal.local_space_origin_Z = z [present]; // no break
case TWO : StateManagerLocal.local_space_origin_Y = y [present]; // no break
case ONE : StateManagerLocal.local_space_origin_X = x [present]; // no break;
default:;}
StateManagerLocal.setReferenceOrientation_1 (o [present]);
return formula[present];
}
private final static void doRepaint() {ViewsManagerAccess.getView(MODEL.SPACE, "MonoThread.execute_do_undo_redo()").repaint(); }
public static int selected_formula;
public static int present = 0;
public final static int UNDO_STACK_SIZE = 3000; // resources.Parameters.UNDO_STACK_SIZE; // This parameter is also used by ViewControls to display the BufferProgressBarValue
protected final static short[] formula = new short [UNDO_STACK_SIZE];
protected final static byte[] x = new byte [UNDO_STACK_SIZE];
protected final static byte[] y = new byte [UNDO_STACK_SIZE];
protected final static byte[] z = new byte [UNDO_STACK_SIZE];
protected final static byte[] o = new byte [UNDO_STACK_SIZE];
private final static byte s6 = 6, s2 = 2;
public final static boolean DO_UNDO_REDO_comment = false; // true false
protected final static void comment_do (int rank)
{
if (present == 0) present = UNDO_STACK_SIZE;
out.println(" do -----> "+
P.aa(present,s6) + " ("+ P.aa(ViewControls.undo_buffer - 1,s2) +"+1="+ P.aa(ViewControls.undo_buffer,s2) +" /"+
P.aa(ViewControls.redo_buffer,s2) +" -"+ P.aa(ViewControls.redo_buffer,s2) +") "+
P.aa("xyzo ("+ P.aa(x[present - 1],2) +","+ P.aa(y[present - 1],2) +","+ P.aa(z[present - 1],2) +")",12) +" "+ o[present - 1] +" " +
// "from:"+ P.aa(from[present - 1],4) +" to:"+ P.aa(to[present - 1],4) +
" f="+ formula[present - 1] +
"");
if (present == UNDO_STACK_SIZE) present = 0;
}
protected final static void comment_undo () {
// present ++; if (present == stack_size) present = 0; // This comment is triggered after present was decreased of one unit
out.println(" undo <--| "+
P.aa(present,s6) + " ("+ P.aa(ViewControls.undo_buffer + 1,s2) +"-1="+ P.aa(ViewControls.undo_buffer,s2) +" /"+
P.aa(ViewControls.redo_buffer - 1,s2) +"+1="+ P.aa(ViewControls.redo_buffer,s2) +") "+
P.aa("xyzo ("+ P.aa(x[present],2) +","+ P.aa(y[present],2) +","+ P.aa(z[present],2) +")",12) +" "+ o[present] +" " +
// "from:"+ P.aa(from[present],4) +" to:"+ P.aa(to[present],4) +
" f="+ formula[present] +
"");
}
protected final static void comment_redo () {
if (present == 0) present = UNDO_STACK_SIZE;
out.println(" redo |--> "+
P.aa(present,s6) + " ("+P.aa(ViewControls.undo_buffer - 1,s2) +"+1="+ P.aa(ViewControls.undo_buffer,s2) + " /"+
P.aa(ViewControls.redo_buffer + 1,s2) +"-1="+ P.aa(ViewControls.redo_buffer,s2) +") "+
P.aa("xyzo ("+ P.aa(x[present - 1],2) +","+ P.aa(y[present - 1],2) +","+ P.aa(z[present - 1],2) +")",12) +" "+ o[present - 1] +" " +
// "from:"+ P.aa(from[present - 1],4) +" to:"+ P.aa(to[present - 1],4) +
" f="+ formula[present - 1] +
"");
if (present == UNDO_STACK_SIZE) present = 0;
}
}
/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////

7
include/fsm.h
View File

@ -102,10 +102,6 @@ void fsm_tools_list_test(); // def: measure/manage; call: measure/manage;
void fsm_rule_trig_measure (int rule_id, int object_id, int measure_id);
// --------------------------------------------------------------- WIP ------
void fsm_engine_init();
void fsm_poetic_engine();
// --------------------------------------------------------------- WIP ------
int fsm_journal_push (journal **jj, int v_value);
int fsm_journal_pop (journal **jj);
@ -126,6 +122,3 @@ void fsm_disp_add_chart (disp_list d, int *p_chart);
int fsm_disp_get_chart (disp_list d, int from, int to);
void fsm_disp_remove_chart (disp_list d, int *p_chart);
// --------------------------------------------------------------- WIP ------
void fsm_another_proto_engine ();
void *fsm_get_engine_page();

57
src/fsm/engine/engine.c
View File

@ -45,61 +45,4 @@
/* */
/******************************************************************************/
static void listen (struct timespec rem, struct timespec req)
{
printf("\n\x1b[1F\x1b[2K"); // move to the beginning of previous line and clear it
nanosleep(&req , &rem);
}
static void fsm_strange_engine()
{
int milliseconds = 100;
struct timespec rem;
struct timespec req= {
(int)(milliseconds / 1000), // secs (Must be Non-Negative)
(milliseconds % 1000) * 1000000 // nano (Must be in range of 0 to 999999999)
};
printf("fsm mode_console 😇️ (see@ 'src/engine/engine.c\n");
int stop = 0;
while (! stop) {
printf(" | °°°°°°°°°°°°°°°° |"); listen (rem, req);
printf(" | ************* *************|"); listen (rem, req);
// stop = (getchar() == '\n');
}
}
void fsm_engine_init()
{
if (1) printf ("src/fsm/engine.c | src/fsm/engine.c fsm_engine_init()\n");
fsm_strange_engine();
printf("src/fsm/engine.c | src/fsm/engine.c fsm_strange_engine stopped\n");
//fsm_another_proto_engine();
}
static GtkBox *engine_page;
static GtkBox *edit_a_new_engine_box;
static GtkWidget *factory;
static GtkWidget *btt_edit_a_new_engine;
void *fsm_get_engine_page()
{
engine_page = GTK_BOX (gtk_box_new (GTK_ORIENTATION_VERTICAL, 2));
edit_a_new_engine_box = GTK_BOX (gtk_box_new (GTK_ORIENTATION_HORIZONTAL, 2));
factory = gtk_picture_new_for_filename
("/home/jean/Gem-Graph/gem-graph-client/data/stamp/factory.png");
btt_edit_a_new_engine = gtk_toggle_button_new_with_label ("edit a new engine");
g_signal_connect (btt_edit_a_new_engine, "toggled",
G_CALLBACK (on_start_new_engine), NULL);
gtk_box_append (edit_a_new_engine_box, GTK_WIDGET (factory));
gtk_box_append (edit_a_new_engine_box, GTK_WIDGET (btt_edit_a_new_engine));
gtk_box_append (engine_page, GTK_WIDGET (edit_a_new_engine_box));
gtk_widget_set_size_request (GTK_WIDGET (engine_page), 1000, 400);
return engine_page;
}

156
src/fsm/engine/engine.java
View File

@ -1,156 +0,0 @@
package engine;
import java.lang.System.out;
import measures.MeasuresManager;
import resources.P;
import rule.FormulasManager;
import rule.FormulasManagerAccess;
import session.ViewControls;
import state.StateManager;
import state.StateManagerLocal;
import views.MODEL;
import views.ViewsManagerAccess;
/* 2020-11 [prototype 0.0]
MonoThread executes a while(true) loop with two instructions:
(1) search a place where a transition can be done
(2) do the transition
while (true)
if (session.MainView.isStartStopButtonSelected())
{
state.StateManagerLocal.chooseLocalOrigin(false);
new SingleTransition(true);
}
*/
public class SingleTransition {
protected volatile boolean is_done = false;
protected volatile String elapsed;
public SingleTransition (boolean mono) {if (mono) perform_a_transition();}
private synchronized static final void perform_a_transition()
{
// if (step_by_step) StateManagerLocal.circlePresentState();
if(ViewControls.isDoSelected()) SingleTransition.execute_do (SingleTransition.prepare_do (false));
else if(ViewControls.isUndoSelected()) SingleTransition.execute_undo(SingleTransition.prepare_undo(false));
else if(ViewControls.isRedoSelected()) SingleTransition.execute_redo(SingleTransition.prepare_redo(false));
// if (ViewControls.undo_buffer < UNDO_STACK_SIZE) ViewControls.setTimeBufferBar(ViewControls.undo_buffer); MainView.addElapsedTime();
}
public static final int prepare_do (final boolean step_by_step)
{
// ThreadsManager.addCycle(); // {nb_cycles ++;} This cycle can be inefficient if no formula can be applied
selected_formula = FormulasManager.iterateToFindAFormula();
// if(selected_formula > -1) out.println(" prepare_do "+ state.StateManagerLocal.getInfoDebug());
return selected_formula;
}
public static final void execute_do (final int formula_key) { // formula.doActions(); out.print(" execute_do: formula key=" + formula_key +" ");
if (formula_key < 0) { if(StateManagerLocal.comment_origins) out.println("execute_do failure: formula key=" + formula_key); return;}
MeasuresManager.startMeasuringAFormulaEffect(formula_key); // out.println("execute_do formula name = "+ FormulasManager.formula.get(formula_key).name);
FormulasManager.getFormula().get (formula_key) .doActions(); // {for (i = 0; i < action.length; i++) action[i].doAction (); StateManagerLocal.endRule(action_swap, action_name);}
MeasuresManager.endMeasuringAFormulaEffect(formula_key);
writePresentState (formula_key);
present ++; if (present == UNDO_STACK_SIZE) present = 0; // MainView.setStartStopButtonSelected(false);// if (present == 1); {MainView.setStartStopButtonSelected(false); } //out.println("MonoThread.execute_do > stop ! (present == 1)");
ViewControls .execDo();
doRepaint();
if (DO_UNDO_REDO_comment) comment_do(formula_key); // if (MonoThreadTest.present == 12) MainView.setStartStopButtonSelected(false);
}
public static final int prepare_undo (final boolean step_by_step) { // MonoThreadTest.present --; return MonoThreadTest. f [MonoThreadTest.present];
if (ViewControls.isUndoBufferEmpty()) {out.println("prepare_undo stop !");} // undo_buffer is always >= 0
else {present --; if (present == -1) present = UNDO_STACK_SIZE -1; ViewControls.execUndo();}
final int formula_key = readPresentState(step_by_step);
// if (step_by_step) StateManagerLocal.circlePresentState();
return formula_key;
}
public static final void execute_undo (final int formula_key) { // formula.unDoActions(); {for (i = 0; i < action.length; i++) ...}
FormulasManager.getFormula().get (formula_key) .unDoActions(); // {for (i = 0; i < action.length; i++) action[i].doAction (); StateManagerLocal.endRule(action_swap, action_name);}
ViewControls.setRedoSelected();
// StateManagerLocal.circlePresentState();
// ThreadsManager.removeEfficientCycle(); // {nb_effective_cycles --;}
doRepaint();
if (DO_UNDO_REDO_comment) comment_undo();
}
public static final int prepare_redo (final boolean step_by_step) { // return MonoThreadTest. f [MonoThreadTest.present];
final int formula_key = readPresentState(step_by_step);
// ThreadsManager.addEfficientCycle(); // {nb_effective_cycles ++;}
// if (step_by_step) StateManagerLocal.circlePresentState();
return formula_key;
}
public static final void execute_redo (final int formula_key) { // formula.doActions(); {for (i = 0; i < action.length; i++) ...}
// the redo_buffer is always >= 0 (if the re_do buffer is empty, the re_do button is deactivated)
if (! ViewControls.isRedoBufferEmpty()) {
FormulasManager.getFormula().get (formula_key).doActions(); // {for (i = 0; i < action.length; i++) action[i].doAction (); StateManagerLocal.endRule(action_swap, action_name);}
present ++; if (present == UNDO_STACK_SIZE) present = 0;
ViewControls.execRedo();
}
ViewControls.setUndoSelected();
doRepaint();
if (DO_UNDO_REDO_comment) comment_redo();
}
public final static void writePresentState (final int formula_key) { // x [present] = StateManagerLocal.local_space_origin_X; ...
formula [present] = (short) formula_key;
o [present] = (byte) StateManagerLocal.getReferenceOrientation_1();
switch(StateManager.space_dimension) {
case THREE: z [present] = (byte) StateManagerLocal.local_space_origin_Z; // no break;
case TWO: y [present] = (byte) StateManagerLocal.local_space_origin_Y; // no break;
case ONE: x [present] = (byte) StateManagerLocal.local_space_origin_X; // no break;
default:;}
}
private final static int readPresentState (final boolean step_by_step) { // StateManagerLocal.local_space_origin_X = x [present]; ...
switch(StateManager.space_dimension) {
case THREE : StateManagerLocal.local_space_origin_Z = z [present]; // no break
case TWO : StateManagerLocal.local_space_origin_Y = y [present]; // no break
case ONE : StateManagerLocal.local_space_origin_X = x [present]; // no break;
default:;}
StateManagerLocal.setReferenceOrientation_1 (o [present]);
return formula[present];
}
private final static void doRepaint() {ViewsManagerAccess.getView(MODEL.SPACE, "MonoThread.execute_do_undo_redo()").repaint(); }
public static int selected_formula;
public static int present = 0;
public final static int UNDO_STACK_SIZE = 3000; // resources.Parameters.UNDO_STACK_SIZE; // This parameter is also used by ViewControls to display the BufferProgressBarValue
protected final static short[] formula = new short [UNDO_STACK_SIZE];
protected final static byte[] x = new byte [UNDO_STACK_SIZE];
protected final static byte[] y = new byte [UNDO_STACK_SIZE];
protected final static byte[] z = new byte [UNDO_STACK_SIZE];
protected final static byte[] o = new byte [UNDO_STACK_SIZE];
private final static byte s6 = 6, s2 = 2;
public final static boolean DO_UNDO_REDO_comment = false; // true false
protected final static void comment_do (int rank)
{
if (present == 0) present = UNDO_STACK_SIZE;
out.println(" do -----> "+
P.aa(present,s6) + " ("+ P.aa(ViewControls.undo_buffer - 1,s2) +"+1="+ P.aa(ViewControls.undo_buffer,s2) +" /"+
P.aa(ViewControls.redo_buffer,s2) +" -"+ P.aa(ViewControls.redo_buffer,s2) +") "+
P.aa("xyzo ("+ P.aa(x[present - 1],2) +","+ P.aa(y[present - 1],2) +","+ P.aa(z[present - 1],2) +")",12) +" "+ o[present - 1] +" " +
// "from:"+ P.aa(from[present - 1],4) +" to:"+ P.aa(to[present - 1],4) +
" f="+ formula[present - 1] +
"");
if (present == UNDO_STACK_SIZE) present = 0;
}
protected final static void comment_undo () {
// present ++; if (present == stack_size) present = 0; // This comment is triggered after present was decreased of one unit
out.println(" undo <--| "+
P.aa(present,s6) + " ("+ P.aa(ViewControls.undo_buffer + 1,s2) +"-1="+ P.aa(ViewControls.undo_buffer,s2) +" /"+
P.aa(ViewControls.redo_buffer - 1,s2) +"+1="+ P.aa(ViewControls.redo_buffer,s2) +") "+
P.aa("xyzo ("+ P.aa(x[present],2) +","+ P.aa(y[present],2) +","+ P.aa(z[present],2) +")",12) +" "+ o[present] +" " +
// "from:"+ P.aa(from[present],4) +" to:"+ P.aa(to[present],4) +
" f="+ formula[present] +
"");
}
protected final static void comment_redo () {
if (present == 0) present = UNDO_STACK_SIZE;
out.println(" redo |--> "+
P.aa(present,s6) + " ("+P.aa(ViewControls.undo_buffer - 1,s2) +"+1="+ P.aa(ViewControls.undo_buffer,s2) + " /"+
P.aa(ViewControls.redo_buffer + 1,s2) +"-1="+ P.aa(ViewControls.redo_buffer,s2) +") "+
P.aa("xyzo ("+ P.aa(x[present - 1],2) +","+ P.aa(y[present - 1],2) +","+ P.aa(z[present - 1],2) +")",12) +" "+ o[present - 1] +" " +
// "from:"+ P.aa(from[present - 1],4) +" to:"+ P.aa(to[present - 1],4) +
" f="+ formula[present - 1] +
"");
if (present == UNDO_STACK_SIZE) present = 0;
}
}

90
src/fsm/engine/poetry.c
View File

@ -1,90 +0,0 @@
/* * * * * * * * * * * * * * * * * * * * * * * * * * *
* *
* Gem-graph client *
* Finite State Machine Engine *
* ... a little touch of poetry ... *
* *
* Copyright © 2024 Jean Sirmai <jean@a-lec.org> *
* *
* This file is part of Gem-graph and of the dreams it may reveal. *
* *
* This program is free software: you can redistribute it and/or modify it *
* under the terms of the GNU Affero General Public License *
* as published by the Free Software Foundation, *
* either version 3 of the License, *
* or (at your option) any later version. *
* *
* This program is distributed in the hope that it will be useful, *
* but WITHOUT ANY WARRANTY; *
* without even the implied warranty of MERCHANTABILITY *
* or FITNESS FOR A PARTICULAR PURPOSE. *
* See the GNU Affero General Public License for more details. *
* *
* You should have received a copy of the GNU Affero General Public License *
* along with this program. If not, see <http://www.gnu.org/licenses/>. *
* *
* * * * * * * * * * * * * * * * * * * * * * * * * * */
#include <stdbool.h>
#include <time.h>
#include "../../../include/fsm.h"
/******************************************************************************/
/* */
/* OOOOOOOOOOO OOOOO OOO OOO */
/* OO OO OO OOOO OOOO */
/* OO OO OO OO OO OO */
/* OOOOOO OO OO OO OO OO */
/* OO OO OO OOO OO */
/* OO OO OO OO */
/* OO OO OOO OO OO */
/* OO OOOOOO OO OO */
/* */
/******************************************************************************/
void fsm_poetic_engine() // 2024-08-31
{
int milliseconds = 100;
struct timespec rem;
struct timespec req= {
(int)(milliseconds / 1000), /* secs (Must be Non-Negative) */
(milliseconds % 1000) * 1000000 /* nano (Must be in range of 0 to 999999999) */
};
while (true) {
printf(" | O . |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | O . |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | DO * |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | D=-O * |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | D=-- -O * |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | =- - - O * |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | -- O * |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | - O (*) |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | O (*) |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | O (*) |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | O (*) |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | O*) |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | (*O |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | (*) O |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | (*) O |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | (*) O |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | * O |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | * O |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | * O |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | * O |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | * O |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | O |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | O * |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | O . |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | O . |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | O . .|\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | O . .|\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | D . . |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | D- . . |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | D =- . . |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | D = --- . . |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | D =-- . . |\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | D=- . .|\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
printf(" | D- . .|\n\x1b[1F\x1b[2K"); nanosleep(&req , &rem);
}
}

78
src/fsm/engine/to_name.c
View File

@ -1,78 +0,0 @@
/* * * * * * * * * * * * * * * * * * * * * * * * * * *
* *
* Gem-graph client *
* Finite State Machine Engine *
* *
* Copyright © 2024 Libre en Communs <contact@a-lec.org> *
* Copyright © 2024 Jean Sirmai <jean@a-lec.org> *
* *
* This file is part of Gem-graph. *
* *
* This program is free software: you can redistribute it and/or modify it *
* under the terms of the GNU Affero General Public License *
* as published by the Free Software Foundation, *
* either version 3 of the License, *
* or (at your option) any later version. *
* *
* This program is distributed in the hope that it will be useful, *
* but WITHOUT ANY WARRANTY; *
* without even the implied warranty of MERCHANTABILITY *
* or FITNESS FOR A PARTICULAR PURPOSE. *
* See the GNU Affero General Public License for more details. *
* *
* You should have received a copy of the GNU Affero General Public License *
* along with this program. If not, see <http://www.gnu.org/licenses/>. *
* *
* * * * * * * * * * * * * * * * * * * * * * * * * * */
#include <stdbool.h>
#include <time.h>
#include "../../../include/fsm.h"
/******************************************************************************/
/* */
/* OOOOOOOOOOO OOOOO OOO OOO */
/* OO OO OO OOOO OOOO */
/* OO OO OO OO OO OO */
/* OOOOOO OO OO OO OO OO */
/* OO OO OO OOO OO */
/* OO OO OO OO */
/* OO OO OOO OO OO */
/* OO OOOOOO OO OO */
/* */
/******************************************************************************/
static int l = 196;
static char t[200]; // = {'|',' ','-',' ','|',' ','-',' ','|',' ','-',' ','|',' ','-',' ','|'};
static void init()
{
for (int i = 0; i < l; i++) {
if (i % 4 == 0) t[i] = 'O';
if (i % 4 == 1) t[i] = ' ';
if (i % 4 == 2) t[i] = '-';
if (i % 4 == 3) t[i] = ' ';
}
}
static void console()
{
int milliseconds = 100;
struct timespec rem;
struct timespec req= {
(int)(milliseconds / 1000), /* secs (Must be Non-Negative) */
(milliseconds % 1000) * 1000000 /* nano (Must be in range of 0 to 999999999) */
};
printf("\n> ");
for (int i = 0; i < l; i++) printf("%c", t[i]);
printf("<\n\x1b[1F\x1b[2K");
nanosleep(&req , &rem);
}
void fsm_another_proto_engine ()
{
init();
console();
}

18
src/signal.c
View File

@ -366,17 +366,8 @@ void on_situations_box_do_reset (GtkWidget *btt_reset, GtkScrollbar *reset_scrol
void on_clicked_topbar_right_measure (GtkWidget *btt, gpointer data)
{
// fsm_measures_sorted_list_do something ();
// 2024-09-03 - experimental area -
// j'essaie d'interagir avec l'affichage console
// widget_get_measure_page() < demeure intact (valide)
// pour revenir en arrière,
// il n'y a qu'à remplacer fsm_get_engine_page()
// par widget_get_measure_page() dans l'instruction suivante.
gtk_window_set_child (GTK_WINDOW (widget_get_main_window ()),
// GTK_WIDGET (widget_get_measure_page()));
GTK_WIDGET (fsm_get_engine_page()));
GTK_WIDGET (widget_get_measure_page()));
}
void on_start_new_measure (GtkWidget *btt, gpointer data)
@ -463,10 +454,3 @@ void on_measure_third_event_occurences_in_between (GtkWidget *btt, gpointer data
GTK_WIDGET (widget_measure_third_event_occurences_in_between()));
}
void on_start_new_engine (GtkWidget *btt, gpointer data)
{
printf("src/signal.c | on_start_new_engine() > fsm_engine_init();\n");
fsm_engine_init();
}

2
src/widget/topbar/left.c
View File

@ -85,7 +85,6 @@ void window_design_topbar_left (GtkWidget *header_bar)
#define YOU_WANT_TO_START_ON_ANOTHER_PAGE 0
#define YOU_DON_T_WANT_THE_MODE_CONSOLE 0
/******************************************************************************/
/* use the next lineS to select the page that will be presented first */
/* it triggers <=> signal.on_toggle_state_rule_data (a btt_NAME) */
@ -93,7 +92,6 @@ void window_design_topbar_left (GtkWidget *header_bar)
/* the last one is the winner (and the winner takes it all !...) */
/* THE LAST ONE IS THE WINNER (AND THE WINNER TAKES IT ALL !...) */
/******************************************************************************/
if (YOU_DON_T_WANT_THE_MODE_CONSOLE)
gtk_check_button_set_active (GTK_CHECK_BUTTON (widget_get_btt_synth()), TRUE);
if (YOU_WANT_TO_START_ON_ANOTHER_PAGE) { // select one
gtk_check_button_set_active (GTK_CHECK_BUTTON (widget_get_btt_rules()), TRUE);