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solvespace/undoredo.cpp
Jonathan Westhues bb4b767e99 Tear everything apart, moving away from meshes and toward shells. 
Add stubs for functions to perform Booleans, and get rid of mesh
stuff, including the kd tree accelerated snap to vertex (which
should not be required if the shell triangulation performs as it
should).

Also check that a sketch is not self-intersecting before extruding
it or whatever. This is dead slow, needs n*log(n) implementation.

[git-p4: depot-paths = "//depot/solvespace/": change = 1902]
2009-01-22 19:30:30 -08:00

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#include "solvespace.h"
void SolveSpace::UndoRemember(void) {
unsaved = true;
PushFromCurrentOnto(&undo);
UndoClearStack(&redo);
UndoEnableMenus();
}
void SolveSpace::UndoUndo(void) {
if(undo.cnt <= 0) return;
PushFromCurrentOnto(&redo);
PopOntoCurrentFrom(&undo);
UndoEnableMenus();
}
void SolveSpace::UndoRedo(void) {
if(redo.cnt <= 0) return;
PushFromCurrentOnto(&undo);
PopOntoCurrentFrom(&redo);
UndoEnableMenus();
}
void SolveSpace::UndoEnableMenus(void) {
EnableMenuById(GraphicsWindow::MNU_UNDO, undo.cnt > 0);
EnableMenuById(GraphicsWindow::MNU_REDO, redo.cnt > 0);
}
void SolveSpace::PushFromCurrentOnto(UndoStack *uk) {
int i;
if(uk->cnt == MAX_UNDO) {
UndoClearState(&(uk->d[uk->write]));
// And then write in to this one again
} else {
(uk->cnt)++;
}
UndoState *ut = &(uk->d[uk->write]);
ZERO(ut);
for(i = 0; i < group.n; i++) {
Group *src = &(group.elem[i]);
Group dest = *src;
// And then clean up all the stuff that needs to be a deep copy,
// and zero out all the dynamic stuff that will get regenerated.
dest.clean = false;
ZERO(&(dest.solved));
ZERO(&(dest.poly));
ZERO(&(dest.bezierLoopSet));
ZERO(&(dest.polyError));
ZERO(&(dest.runningMesh));
ZERO(&(dest.thisShell));
ZERO(&(dest.runningShell));
ZERO(&(dest.meshError));
ZERO(&(dest.emphEdges));
ZERO(&(dest.remap));
src->remap.DeepCopyInto(&(dest.remap));
ZERO(&(dest.impMesh));
ZERO(&(dest.impEntity));
ut->group.Add(&dest);
}
for(i = 0; i < request.n; i++) {
ut->request.Add(&(request.elem[i]));
}
for(i = 0; i < constraint.n; i++) {
Constraint *src = &(constraint.elem[i]);
Constraint dest = *src;
ZERO(&(dest.dogd));
ut->constraint.Add(&dest);
}
for(i = 0; i < param.n; i++) {
ut->param.Add(&(param.elem[i]));
}
ut->activeGroup = SS.GW.activeGroup;
uk->write = WRAP(uk->write + 1, MAX_UNDO);
}
void SolveSpace::PopOntoCurrentFrom(UndoStack *uk) {
if(uk->cnt <= 0) oops();
(uk->cnt)--;
uk->write = WRAP(uk->write - 1, MAX_UNDO);
UndoState *ut = &(uk->d[uk->write]);
int i;
// Free everything in the main copy of the program before replacing it
for(i = 0; i < group.n; i++) {
Group *g = &(group.elem[i]);
g->poly.Clear();
g->bezierLoopSet.Clear();
g->runningMesh.Clear();
g->thisShell.Clear();
g->runningShell.Clear();
g->meshError.interferesAt.Clear();
g->emphEdges.Clear();
g->remap.Clear();
g->impMesh.Clear();
g->impEntity.Clear();
}
group.Clear();
request.Clear();
constraint.Clear();
param.Clear();
// And then do a shallow copy of the state from the undo list
ut->group.MoveSelfInto(&group);
ut->request.MoveSelfInto(&request);
ut->constraint.MoveSelfInto(&constraint);
ut->param.MoveSelfInto(&param);
SS.GW.activeGroup = ut->activeGroup;
// No need to free it, since a shallow copy was made above
ZERO(ut);
// And reset the state everywhere else in the program, since the
// sketch just changed a lot.
SS.GW.ClearSuper();
SS.TW.ClearSuper();
SS.ReloadAllImported();
SS.GenerateAll(0, INT_MAX);
later.showTW = true;
}
void SolveSpace::UndoClearStack(UndoStack *uk) {
while(uk->cnt > 0) {
uk->write = WRAP(uk->write - 1, MAX_UNDO);
(uk->cnt)--;
UndoClearState(&(uk->d[uk->write]));
}
ZERO(uk); // for good measure
}
void SolveSpace::UndoClearState(UndoState *ut) {
int i;
for(i = 0; i < ut->group.n; i++) {
Group *g = &(ut->group.elem[i]);
g->remap.Clear();
}
ut->group.Clear();
ut->request.Clear();
ut->constraint.Clear();
ut->param.Clear();
ZERO(ut);
}
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