/* ---------------------------------------------------------------------- * moves all names of an element to a new position */ static void * MoveElementName (ElementTypePtr Element) { if (PCB->ElementOn && (FRONT (Element) || PCB->InvisibleObjectsOn)) { EraseElementName (Element); ELEMENTTEXT_LOOP (Element); { if (PCB->Data->name_tree[n]) r_delete_entry (PCB->Data->name_tree[n], (BoxType *)text); MOVE_TEXT_LOWLEVEL (text, DeltaX, DeltaY); if (PCB->Data->name_tree[n]) r_insert_entry (PCB->Data->name_tree[n], (BoxType *)text, 0); } END_LOOP; DrawElementName (Element); Draw (); } else { ELEMENTTEXT_LOOP (Element); { if (PCB->Data->name_tree[n]) r_delete_entry (PCB->Data->name_tree[n], (BoxType *)text); MOVE_TEXT_LOWLEVEL (text, DeltaX, DeltaY); if (PCB->Data->name_tree[n]) r_insert_entry (PCB->Data->name_tree[n], (BoxType *)text, 0); } END_LOOP; } return (Element); }
void FreeRotateElementLowLevel (DataType *Data, ElementType *Element, Coord X, Coord Y, double cosa, double sina, Angle angle) { /* solder side objects need a different orientation */ /* the text subroutine decides by itself if the direction * is to be corrected */ #if 0 ELEMENTTEXT_LOOP (Element); { if (Data && Data->name_tree[n]) r_delete_entry (Data->name_tree[n], (BoxType *)text); RotateTextLowLevel (text, X, Y, Number); } END_LOOP; #endif ELEMENTLINE_LOOP (Element); { free_rotate (&line->Point1.X, &line->Point1.Y, X, Y, cosa, sina); free_rotate (&line->Point2.X, &line->Point2.Y, X, Y, cosa, sina); SetLineBoundingBox (line); } END_LOOP; PIN_LOOP (Element); { /* pre-delete the pins from the pin-tree before their coordinates change */ if (Data) r_delete_entry (Data->pin_tree, (BoxType *)pin); RestoreToPolygon (Data, PIN_TYPE, Element, pin); free_rotate (&pin->X, &pin->Y, X, Y, cosa, sina); SetPinBoundingBox (pin); } END_LOOP; PAD_LOOP (Element); { /* pre-delete the pads before their coordinates change */ if (Data) r_delete_entry (Data->pad_tree, (BoxType *)pad); RestoreToPolygon (Data, PAD_TYPE, Element, pad); free_rotate (&pad->Point1.X, &pad->Point1.Y, X, Y, cosa, sina); free_rotate (&pad->Point2.X, &pad->Point2.Y, X, Y, cosa, sina); SetLineBoundingBox ((LineType *) pad); } END_LOOP; ARC_LOOP (Element); { free_rotate (&arc->X, &arc->Y, X, Y, cosa, sina); arc->StartAngle = NormalizeAngle (arc->StartAngle + angle); } END_LOOP; free_rotate (&Element->MarkX, &Element->MarkY, X, Y, cosa, sina); SetElementBoundingBox (Data, Element, &PCB->Font); ClearFromPolygon (Data, ELEMENT_TYPE, Element, Element); }
/* --------------------------------------------------------------------------- * mirrors the coordinates of an element * an additional offset is passed */ void MirrorElementCoordinates (DataTypePtr Data, ElementTypePtr Element, Coord yoff) { r_delete_element (Data, Element); ELEMENTLINE_LOOP (Element); { line->Point1.X = SWAP_X (line->Point1.X); line->Point1.Y = SWAP_Y (line->Point1.Y) + yoff; line->Point2.X = SWAP_X (line->Point2.X); line->Point2.Y = SWAP_Y (line->Point2.Y) + yoff; } END_LOOP; PIN_LOOP (Element); { RestoreToPolygon (Data, PIN_TYPE, Element, pin); pin->X = SWAP_X (pin->X); pin->Y = SWAP_Y (pin->Y) + yoff; } END_LOOP; PAD_LOOP (Element); { RestoreToPolygon (Data, PAD_TYPE, Element, pad); pad->Point1.X = SWAP_X (pad->Point1.X); pad->Point1.Y = SWAP_Y (pad->Point1.Y) + yoff; pad->Point2.X = SWAP_X (pad->Point2.X); pad->Point2.Y = SWAP_Y (pad->Point2.Y) + yoff; TOGGLE_FLAG (ONSOLDERFLAG, pad); } END_LOOP; ARC_LOOP (Element); { arc->X = SWAP_X (arc->X); arc->Y = SWAP_Y (arc->Y) + yoff; arc->StartAngle = SWAP_ANGLE (arc->StartAngle); arc->Delta = SWAP_DELTA (arc->Delta); } END_LOOP; ELEMENTTEXT_LOOP (Element); { text->X = SWAP_X (text->X); text->Y = SWAP_Y (text->Y) + yoff; TOGGLE_FLAG (ONSOLDERFLAG, text); } END_LOOP; Element->MarkX = SWAP_X (Element->MarkX); Element->MarkY = SWAP_Y (Element->MarkY) + yoff; /* now toggle the solder-side flag */ TOGGLE_FLAG (ONSOLDERFLAG, Element); /* this inserts all of the rtree data too */ SetElementBoundingBox (Data, Element, &PCB->Font); ClearFromPolygon (Data, ELEMENT_TYPE, Element, Element); }
/* --------------------------------------------------------------------------- * get next slot for an element, allocates memory if necessary */ ElementTypePtr GetElementMemory (DataTypePtr Data) { ElementTypePtr element = Data->Element; int i; /* realloc new memory if necessary and clear it */ if (Data->ElementN >= Data->ElementMax) { Data->ElementMax += STEP_ELEMENT; if (Data->element_tree) r_destroy_tree (&Data->element_tree); element = MyRealloc (element, Data->ElementMax * sizeof (ElementType), "GetElementMemory()"); Data->Element = element; memset (element + Data->ElementN, 0, STEP_ELEMENT * sizeof (ElementType)); Data->element_tree = r_create_tree (NULL, 0, 0); for (i = 0; i < MAX_ELEMENTNAMES; i++) { if (Data->name_tree[i]) r_destroy_tree (&Data->name_tree[i]); Data->name_tree[i] = r_create_tree (NULL, 0, 0); } ELEMENT_LOOP (Data); { r_insert_entry (Data->element_tree, (BoxType *) element, 0); PIN_LOOP (element); { pin->Element = element; } END_LOOP; PAD_LOOP (element); { pad->Element = element; } END_LOOP; ELEMENTTEXT_LOOP (element); { text->Element = element; r_insert_entry (Data->name_tree[n], (BoxType *) text, 0); } END_LOOP; } END_LOOP; } return (element + Data->ElementN++); }
/* --------------------------------------------------------------------------- * destroys a element */ static void * DestroyElement (ElementTypePtr Element) { if (DestroyTarget->element_tree) r_delete_entry (DestroyTarget->element_tree, (BoxType *) Element); if (DestroyTarget->pin_tree) { PIN_LOOP (Element); { r_delete_entry (DestroyTarget->pin_tree, (BoxType *) pin); } END_LOOP; } if (DestroyTarget->pad_tree) { PAD_LOOP (Element); { r_delete_entry (DestroyTarget->pad_tree, (BoxType *) pad); } END_LOOP; } ELEMENTTEXT_LOOP (Element); { if (DestroyTarget->name_tree[n]) r_delete_entry (DestroyTarget->name_tree[n], (BoxType *) text); } END_LOOP; FreeElementMemory (Element); DestroyTarget->Element = g_list_remove (DestroyTarget->Element, Element); DestroyTarget->ElementN --; g_slice_free (ElementType, Element); return NULL; }
/* --------------------------------------------------------------------------- * moves a element by +-X and +-Y */ void MoveElementLowLevel (DataTypePtr Data, ElementTypePtr Element, Coord DX, Coord DY) { if (Data) r_delete_entry (Data->element_tree, (BoxType *)Element); ELEMENTLINE_LOOP (Element); { MOVE_LINE_LOWLEVEL (line, DX, DY); } END_LOOP; PIN_LOOP (Element); { if (Data) { r_delete_entry (Data->pin_tree, (BoxType *)pin); RestoreToPolygon (Data, PIN_TYPE, Element, pin); } MOVE_PIN_LOWLEVEL (pin, DX, DY); if (Data) { r_insert_entry (Data->pin_tree, (BoxType *)pin, 0); ClearFromPolygon (Data, PIN_TYPE, Element, pin); } } END_LOOP; PAD_LOOP (Element); { if (Data) { r_delete_entry (Data->pad_tree, (BoxType *)pad); RestoreToPolygon (Data, PAD_TYPE, Element, pad); } MOVE_PAD_LOWLEVEL (pad, DX, DY); if (Data) { r_insert_entry (Data->pad_tree, (BoxType *)pad, 0); ClearFromPolygon (Data, PAD_TYPE, Element, pad); } } END_LOOP; ARC_LOOP (Element); { MOVE_ARC_LOWLEVEL (arc, DX, DY); } END_LOOP; ELEMENTTEXT_LOOP (Element); { if (Data && Data->name_tree[n]) r_delete_entry (PCB->Data->name_tree[n], (BoxType *)text); MOVE_TEXT_LOWLEVEL (text, DX, DY); if (Data && Data->name_tree[n]) r_insert_entry (PCB->Data->name_tree[n], (BoxType *)text, 0); } END_LOOP; MOVE_BOX_LOWLEVEL (&Element->BoundingBox, DX, DY); MOVE_BOX_LOWLEVEL (&Element->VBox, DX, DY); MOVE (Element->MarkX, Element->MarkY, DX, DY); if (Data) r_insert_entry (Data->element_tree, (BoxType *)Element, 0); }
/* --------------------------------------------------------------------------- * searches for a object by it's unique ID. It doesn't matter if * the object is visible or not. The search is performed on a PCB, a * buffer or on the remove list. * The calling routine passes two pointers to allocated memory for storing * the results. * A type value is returned too which is NO_TYPE if no objects has been found. */ int SearchObjectByID (DataTypePtr Base, void **Result1, void **Result2, void **Result3, int ID, int type) { if (type == LINE_TYPE || type == LINEPOINT_TYPE) { ALLLINE_LOOP (Base); { if (line->ID == ID) { *Result1 = (void *) layer; *Result2 = *Result3 = (void *) line; return (LINE_TYPE); } if (line->Point1.ID == ID) { *Result1 = (void *) layer; *Result2 = (void *) line; *Result3 = (void *) &line->Point1; return (LINEPOINT_TYPE); } if (line->Point2.ID == ID) { *Result1 = (void *) layer; *Result2 = (void *) line; *Result3 = (void *) &line->Point2; return (LINEPOINT_TYPE); } } ENDALL_LOOP; } if (type == ARC_TYPE) { ALLARC_LOOP (Base); { if (arc->ID == ID) { *Result1 = (void *) layer; *Result2 = *Result3 = (void *) arc; return (ARC_TYPE); } } ENDALL_LOOP; } if (type == TEXT_TYPE) { ALLTEXT_LOOP (Base); { if (text->ID == ID) { *Result1 = (void *) layer; *Result2 = *Result3 = (void *) text; return (TEXT_TYPE); } } ENDALL_LOOP; } if (type == POLYGON_TYPE || type == POLYGONPOINT_TYPE) { ALLPOLYGON_LOOP (Base); { if (polygon->ID == ID) { *Result1 = (void *) layer; *Result2 = *Result3 = (void *) polygon; return (POLYGON_TYPE); } if (type == POLYGONPOINT_TYPE) POLYGONPOINT_LOOP (polygon); { if (point->ID == ID) { *Result1 = (void *) layer; *Result2 = (void *) polygon; *Result3 = (void *) point; return (POLYGONPOINT_TYPE); } } END_LOOP; } ENDALL_LOOP; } if (type == VIA_TYPE) { VIA_LOOP (Base); { if (via->ID == ID) { *Result1 = *Result2 = *Result3 = (void *) via; return (VIA_TYPE); } } END_LOOP; } if (type == RATLINE_TYPE || type == LINEPOINT_TYPE) { RAT_LOOP (Base); { if (line->ID == ID) { *Result1 = *Result2 = *Result3 = (void *) line; return (RATLINE_TYPE); } if (line->Point1.ID == ID) { *Result1 = (void *) NULL; *Result2 = (void *) line; *Result3 = (void *) &line->Point1; return (LINEPOINT_TYPE); } if (line->Point2.ID == ID) { *Result1 = (void *) NULL; *Result2 = (void *) line; *Result3 = (void *) &line->Point2; return (LINEPOINT_TYPE); } } END_LOOP; } if (type == ELEMENT_TYPE || type == PAD_TYPE || type == PIN_TYPE || type == ELEMENTLINE_TYPE || type == ELEMENTNAME_TYPE || type == ELEMENTARC_TYPE) /* check pins and elementnames too */ ELEMENT_LOOP (Base); { if (element->ID == ID) { *Result1 = *Result2 = *Result3 = (void *) element; return (ELEMENT_TYPE); } if (type == ELEMENTLINE_TYPE) ELEMENTLINE_LOOP (element); { if (line->ID == ID) { *Result1 = (void *) element; *Result2 = *Result3 = (void *) line; return (ELEMENTLINE_TYPE); } } END_LOOP; if (type == ELEMENTARC_TYPE) ARC_LOOP (element); { if (arc->ID == ID) { *Result1 = (void *) element; *Result2 = *Result3 = (void *) arc; return (ELEMENTARC_TYPE); } } END_LOOP; if (type == ELEMENTNAME_TYPE) ELEMENTTEXT_LOOP (element); { if (text->ID == ID) { *Result1 = (void *) element; *Result2 = *Result3 = (void *) text; return (ELEMENTNAME_TYPE); } } END_LOOP; if (type == PIN_TYPE) PIN_LOOP (element); { if (pin->ID == ID) { *Result1 = (void *) element; *Result2 = *Result3 = (void *) pin; return (PIN_TYPE); } } END_LOOP; if (type == PAD_TYPE) PAD_LOOP (element); { if (pad->ID == ID) { *Result1 = (void *) element; *Result2 = *Result3 = (void *) pad; return (PAD_TYPE); } } END_LOOP; } END_LOOP; Message ("hace: Internal error, search for ID %d failed\n", ID); return (NO_TYPE); }
bool SelectObjectByName (int Type, char *Pattern, bool Flag) { bool changed = false; #if defined(HAVE_REGCOMP) #define REGEXEC(arg) (regexec_match_all(&compiled, (arg))) int result; regex_t compiled; /* compile the regular expression */ result = regcomp (&compiled, Pattern, REG_EXTENDED | REG_ICASE); if (result) { char errorstring[128]; regerror (result, &compiled, errorstring, 128); Message (_("regexp error: %s\n"), errorstring); regfree (&compiled); return (false); } #else #define REGEXEC(arg) (re_exec((arg)) == 1) char *compiled; /* compile the regular expression */ if ((compiled = re_comp (Pattern)) != NULL) { Message (_("re_comp error: %s\n"), compiled); return (false); } #endif /* loop over all visible objects with names */ if (Type & TEXT_TYPE) ALLTEXT_LOOP (PCB->Data); { if (!TEST_FLAG (LOCKFLAG, text) && TEXT_IS_VISIBLE (PCB, layer, text) && text->TextString && REGEXEC (text->TextString) && TEST_FLAG (SELECTEDFLAG, text) != Flag) { AddObjectToFlagUndoList (TEXT_TYPE, layer, text, text); ASSIGN_FLAG (SELECTEDFLAG, Flag, text); DrawText (layer, text, 0); changed = true; } } ENDALL_LOOP; if (PCB->ElementOn && (Type & ELEMENT_TYPE)) ELEMENT_LOOP (PCB->Data); { if (!TEST_FLAG (LOCKFLAG, element) && ((TEST_FLAG (ONSOLDERFLAG, element) != 0) == SWAP_IDENT || PCB->InvisibleObjectsOn) && TEST_FLAG (SELECTEDFLAG, element) != Flag) { String name = ELEMENT_NAME (PCB, element); if (name && REGEXEC (name)) { AddObjectToFlagUndoList (ELEMENT_TYPE, element, element, element); ASSIGN_FLAG (SELECTEDFLAG, Flag, element); PIN_LOOP (element); { AddObjectToFlagUndoList (PIN_TYPE, element, pin, pin); ASSIGN_FLAG (SELECTEDFLAG, Flag, pin); } END_LOOP; PAD_LOOP (element); { AddObjectToFlagUndoList (PAD_TYPE, element, pad, pad); ASSIGN_FLAG (SELECTEDFLAG, Flag, pad); } END_LOOP; ELEMENTTEXT_LOOP (element); { AddObjectToFlagUndoList (ELEMENTNAME_TYPE, element, text, text); ASSIGN_FLAG (SELECTEDFLAG, Flag, text); } END_LOOP; DrawElementName (element, 0); DrawElement (element, 0); changed = true; } } } END_LOOP; if (PCB->PinOn && (Type & PIN_TYPE)) ALLPIN_LOOP (PCB->Data); { if (!TEST_FLAG (LOCKFLAG, element) && pin->Name && REGEXEC (pin->Name) && TEST_FLAG (SELECTEDFLAG, pin) != Flag) { AddObjectToFlagUndoList (PIN_TYPE, element, pin, pin); ASSIGN_FLAG (SELECTEDFLAG, Flag, pin); DrawPin (pin, 0); changed = true; } } ENDALL_LOOP; if (PCB->PinOn && (Type & PAD_TYPE)) ALLPAD_LOOP (PCB->Data); { if (!TEST_FLAG (LOCKFLAG, element) && ((TEST_FLAG (ONSOLDERFLAG, pad) != 0) == SWAP_IDENT || PCB->InvisibleObjectsOn) && TEST_FLAG (SELECTEDFLAG, pad) != Flag) if (pad->Name && REGEXEC (pad->Name)) { AddObjectToFlagUndoList (PAD_TYPE, element, pad, pad); ASSIGN_FLAG (SELECTEDFLAG, Flag, pad); DrawPad (pad, 0); changed = true; } } ENDALL_LOOP; if (PCB->ViaOn && (Type & VIA_TYPE)) VIA_LOOP (PCB->Data); { if (!TEST_FLAG (LOCKFLAG, via) && via->Name && REGEXEC (via->Name) && TEST_FLAG (SELECTEDFLAG, via) != Flag) { AddObjectToFlagUndoList (VIA_TYPE, via, via, via); ASSIGN_FLAG (SELECTEDFLAG, Flag, via); DrawVia (via, 0); changed = true; } } END_LOOP; #if defined(HAVE_REGCOMP) #if !defined(sgi) regfree (&compiled); #endif #endif if (changed) { IncrementUndoSerialNumber (); Draw (); } return (changed); }
/* ---------------------------------------------------------------------- * selects/unselects all visible objects within the passed box * Flag determines if the block is to be selected or unselected * returns true if the state of any object has changed */ bool SelectBlock (BoxTypePtr Box, bool Flag) { bool changed = false; if (PCB->RatOn || !Flag) RAT_LOOP (PCB->Data); { if (LINE_IN_BOX ((LineTypePtr) line, Box) && !TEST_FLAG (LOCKFLAG, line) && TEST_FLAG (SELECTEDFLAG, line) != Flag) { AddObjectToFlagUndoList (RATLINE_TYPE, line, line, line); ASSIGN_FLAG (SELECTEDFLAG, Flag, line); if (PCB->RatOn) DrawRat (line, 0); changed = true; } } END_LOOP; /* check layers */ LAYER_LOOP(PCB->Data, max_copper_layer + 2); { if (layer == & PCB->Data->SILKLAYER) { if (! (PCB->ElementOn || !Flag)) continue; } else if (layer == & PCB->Data->BACKSILKLAYER) { if (! (PCB->InvisibleObjectsOn || !Flag)) continue; } else if (! (layer->On || !Flag)) continue; LINE_LOOP (layer); { if (LINE_IN_BOX (line, Box) && !TEST_FLAG (LOCKFLAG, line) && TEST_FLAG (SELECTEDFLAG, line) != Flag) { AddObjectToFlagUndoList (LINE_TYPE, layer, line, line); ASSIGN_FLAG (SELECTEDFLAG, Flag, line); if (layer->On) DrawLine (layer, line, 0); changed = true; } } END_LOOP; ARC_LOOP (layer); { if (ARC_IN_BOX (arc, Box) && !TEST_FLAG (LOCKFLAG, arc) && TEST_FLAG (SELECTEDFLAG, arc) != Flag) { AddObjectToFlagUndoList (ARC_TYPE, layer, arc, arc); ASSIGN_FLAG (SELECTEDFLAG, Flag, arc); if (layer->On) DrawArc (layer, arc, 0); changed = true; } } END_LOOP; TEXT_LOOP (layer); { if (!Flag || TEXT_IS_VISIBLE(PCB, layer, text)) { if (TEXT_IN_BOX (text, Box) && !TEST_FLAG (LOCKFLAG, text) && TEST_FLAG (SELECTEDFLAG, text) != Flag) { AddObjectToFlagUndoList (TEXT_TYPE, layer, text, text); ASSIGN_FLAG (SELECTEDFLAG, Flag, text); if (TEXT_IS_VISIBLE(PCB, layer, text)) DrawText (layer, text, 0); changed = true; } } } END_LOOP; POLYGON_LOOP (layer); { if (POLYGON_IN_BOX (polygon, Box) && !TEST_FLAG (LOCKFLAG, polygon) && TEST_FLAG (SELECTEDFLAG, polygon) != Flag) { AddObjectToFlagUndoList (POLYGON_TYPE, layer, polygon, polygon); ASSIGN_FLAG (SELECTEDFLAG, Flag, polygon); if (layer->On) DrawPolygon (layer, polygon, 0); changed = true; } } END_LOOP; } END_LOOP; /* elements */ ELEMENT_LOOP (PCB->Data); { { bool gotElement = false; if ((PCB->ElementOn || !Flag) && !TEST_FLAG (LOCKFLAG, element) && ((TEST_FLAG (ONSOLDERFLAG, element) != 0) == SWAP_IDENT || PCB->InvisibleObjectsOn)) { if (BOX_IN_BOX (&ELEMENT_TEXT (PCB, element).BoundingBox, Box) && !TEST_FLAG (LOCKFLAG, &ELEMENT_TEXT (PCB, element)) && TEST_FLAG (SELECTEDFLAG, &ELEMENT_TEXT (PCB, element)) != Flag) { /* select all names of element */ ELEMENTTEXT_LOOP (element); { AddObjectToFlagUndoList (ELEMENTNAME_TYPE, element, text, text); ASSIGN_FLAG (SELECTEDFLAG, Flag, text); } END_LOOP; if (PCB->ElementOn) DrawElementName (element, 0); changed = true; } if ((PCB->PinOn || !Flag) && ELEMENT_IN_BOX (element, Box)) if (TEST_FLAG (SELECTEDFLAG, element) != Flag) { AddObjectToFlagUndoList (ELEMENT_TYPE, element, element, element); ASSIGN_FLAG (SELECTEDFLAG, Flag, element); PIN_LOOP (element); { if (TEST_FLAG (SELECTEDFLAG, pin) != Flag) { AddObjectToFlagUndoList (PIN_TYPE, element, pin, pin); ASSIGN_FLAG (SELECTEDFLAG, Flag, pin); if (PCB->PinOn) DrawPin (pin, 0); changed = true; } } END_LOOP; PAD_LOOP (element); { if (TEST_FLAG (SELECTEDFLAG, pad) != Flag) { AddObjectToFlagUndoList (PAD_TYPE, element, pad, pad); ASSIGN_FLAG (SELECTEDFLAG, Flag, pad); if (PCB->PinOn) DrawPad (pad, 0); changed = true; } } END_LOOP; if (PCB->PinOn) DrawElement (element, 0); changed = true; gotElement = true; } } if ((PCB->PinOn || !Flag) && !TEST_FLAG (LOCKFLAG, element) && !gotElement) { PIN_LOOP (element); { if ((VIA_OR_PIN_IN_BOX (pin, Box) && TEST_FLAG (SELECTEDFLAG, pin) != Flag)) { AddObjectToFlagUndoList (PIN_TYPE, element, pin, pin); ASSIGN_FLAG (SELECTEDFLAG, Flag, pin); if (PCB->PinOn) DrawPin (pin, 0); changed = true; } } END_LOOP; PAD_LOOP (element); { if (PAD_IN_BOX (pad, Box) && TEST_FLAG (SELECTEDFLAG, pad) != Flag) { AddObjectToFlagUndoList (PAD_TYPE, element, pad, pad); ASSIGN_FLAG (SELECTEDFLAG, Flag, pad); if (PCB->PinOn) DrawPad (pad, 0); changed = true; } } END_LOOP; } } } END_LOOP; /* end with vias */ if (PCB->ViaOn || !Flag) VIA_LOOP (PCB->Data); { if (VIA_OR_PIN_IN_BOX (via, Box) && !TEST_FLAG (LOCKFLAG, via) && TEST_FLAG (SELECTEDFLAG, via) != Flag) { AddObjectToFlagUndoList (VIA_TYPE, via, via, via); ASSIGN_FLAG (SELECTEDFLAG, Flag, via); if (PCB->ViaOn) DrawVia (via, 0); changed = true; } } END_LOOP; if (changed) { Draw (); IncrementUndoSerialNumber (); } return (changed); }
/* --------------------------------------------------------------------------- * toggles the selection of any kind of object * the different types are defined by search.h */ bool SelectObject (void) { void *ptr1, *ptr2, *ptr3; LayerTypePtr layer; int type; bool changed = true; type = SearchScreen (Crosshair.X, Crosshair.Y, SELECT_TYPES, &ptr1, &ptr2, &ptr3); if (type == NO_TYPE || TEST_FLAG (LOCKFLAG, (PinTypePtr) ptr2)) return (false); switch (type) { case VIA_TYPE: AddObjectToFlagUndoList (VIA_TYPE, ptr1, ptr1, ptr1); TOGGLE_FLAG (SELECTEDFLAG, (PinTypePtr) ptr1); DrawVia ((PinTypePtr) ptr1, 0); break; case LINE_TYPE: { LineType *line = (LineTypePtr) ptr2; layer = (LayerTypePtr) ptr1; AddObjectToFlagUndoList (LINE_TYPE, ptr1, ptr2, ptr2); TOGGLE_FLAG (SELECTEDFLAG, line); DrawLine (layer, line, 0); break; } case RATLINE_TYPE: { RatTypePtr rat = (RatTypePtr) ptr2; AddObjectToFlagUndoList (RATLINE_TYPE, ptr1, ptr1, ptr1); TOGGLE_FLAG (SELECTEDFLAG, rat); DrawRat (rat, 0); break; } case ARC_TYPE: { ArcType *arc = (ArcTypePtr) ptr2; layer = (LayerTypePtr) ptr1; AddObjectToFlagUndoList (ARC_TYPE, ptr1, ptr2, ptr2); TOGGLE_FLAG (SELECTEDFLAG, arc); DrawArc (layer, arc, 0); break; } case TEXT_TYPE: { TextType *text = (TextTypePtr) ptr2; layer = (LayerTypePtr) ptr1; AddObjectToFlagUndoList (TEXT_TYPE, ptr1, ptr2, ptr2); TOGGLE_FLAG (SELECTEDFLAG, text); DrawText (layer, text, 0); break; } case POLYGON_TYPE: { PolygonType *poly = (PolygonTypePtr) ptr2; layer = (LayerTypePtr) ptr1; AddObjectToFlagUndoList (POLYGON_TYPE, ptr1, ptr2, ptr2); TOGGLE_FLAG (SELECTEDFLAG, poly); DrawPolygon (layer, poly, 0); /* changing memory order no longer effects draw order */ break; } case PIN_TYPE: AddObjectToFlagUndoList (PIN_TYPE, ptr1, ptr2, ptr2); TOGGLE_FLAG (SELECTEDFLAG, (PinTypePtr) ptr2); DrawPin ((PinTypePtr) ptr2, 0); break; case PAD_TYPE: AddObjectToFlagUndoList (PAD_TYPE, ptr1, ptr2, ptr2); TOGGLE_FLAG (SELECTEDFLAG, (PadTypePtr) ptr2); DrawPad ((PadTypePtr) ptr2, 0); break; case ELEMENTNAME_TYPE: { ElementTypePtr element = (ElementTypePtr) ptr1; /* select all names of the element */ ELEMENTTEXT_LOOP (element); { AddObjectToFlagUndoList (ELEMENTNAME_TYPE, element, text, text); TOGGLE_FLAG (SELECTEDFLAG, text); } END_LOOP; DrawElementName (element, 0); break; } case ELEMENT_TYPE: { ElementTypePtr element = (ElementTypePtr) ptr1; /* select all pins and names of the element */ PIN_LOOP (element); { AddObjectToFlagUndoList (PIN_TYPE, element, pin, pin); TOGGLE_FLAG (SELECTEDFLAG, pin); } END_LOOP; PAD_LOOP (element); { AddObjectToFlagUndoList (PAD_TYPE, element, pad, pad); TOGGLE_FLAG (SELECTEDFLAG, pad); } END_LOOP; ELEMENTTEXT_LOOP (element); { AddObjectToFlagUndoList (ELEMENTNAME_TYPE, element, text, text); TOGGLE_FLAG (SELECTEDFLAG, text); } END_LOOP; AddObjectToFlagUndoList (ELEMENT_TYPE, element, element, element); TOGGLE_FLAG (SELECTEDFLAG, element); if (PCB->ElementOn && ((TEST_FLAG (ONSOLDERFLAG, element) != 0) == SWAP_IDENT || PCB->InvisibleObjectsOn)) if (PCB->ElementOn) { DrawElementName (element, 0); DrawElementPackage (element, 0); } if (PCB->PinOn) DrawElementPinsAndPads (element, 0); break; } } Draw (); IncrementUndoSerialNumber (); return (changed); }