/** \file csnap.c * Draw Snap Grid */ /* XTrkCad - Model Railroad CAD * Copyright (C) 2005 Dave Bullis * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ #include "custom.h" #include "fileio.h" #include "param.h" #include "track.h" #include "common-ui.h" #define bigdot_width 2 int log_timedrawgrid = 0; /***************************************************************************** * * */ EXPORT long minGridSpacing = 5; #define CROSSTICK #ifdef CROSSTICK #include "bitmaps/cross0.xbm" static wDrawBitMap_p cross0_bm; #endif #define DEFAULTGRIDSPACING (1.0) EXPORT void MapGrid( coOrd orig, coOrd size, ANGLE_T angle, coOrd gridOrig, ANGLE_T gridAngle, POS_T Xspacing, POS_T Yspacing, int * x0, int * x1, int * y0, int * y1 ) { coOrd p[4], hi, lo; int i; p[0] = p[1] = p[2] = p[3] = orig; p[1].x += size.x; p[2].x += size.x; p[2].y += size.y; p[3].y += size.y; for (i=1; i<4; i++) { Rotate( &p[i], orig, angle ); } for (i=0; i<4; i++) { p[i].x -= gridOrig.x; p[i].y -= gridOrig.y; Rotate( &p[i], zero, -gridAngle ); } hi = lo = p[0]; for (i=1; i<4; i++) { if (hi.x < p[i].x) { hi.x = p[i].x; } if (hi.y < p[i].y) { hi.y = p[i].y; } if (lo.x > p[i].x) { lo.x = p[i].x; } if (lo.y > p[i].y) { lo.y = p[i].y; } } *x0 = (int)floor( lo.x / Xspacing ); *y0 = (int)floor( lo.y / Yspacing ); *x1 = (int)ceil( hi.x / Xspacing ); *y1 = (int)ceil( hi.y / Yspacing ); } static DIST_T Gdx, Gdy, Ddx, Ddy; static coOrd GDorig; static wDrawPix_t lborder, bborder; int nDrawGridPoints = 0; void static DrawGridPoint( drawCmd_p D, wDrawColor Color, coOrd orig, coOrd * size, DIST_T dpi, coOrd p0, BOOL_T bigdot ) { // Map Grid index to Layout pos POS_T x; x = (p0.x*Gdx + p0.y*Gdy) + orig.x; p0.y = (p0.y*Gdx - p0.x*Gdy) + orig.y; p0.x = x; if (size && ( p0.x < 0.0 || p0.x > size->x || p0.y < 0.0 || p0.y > size->y ) ) { return; } DIST_T r; nDrawGridPoints++; if ( bigdot ) { r = (bigdot_width+0.5)/2 - 0.5; } else { r = 0.75; } coOrd sz; sz.x = sz.y = (bigdot?2.5:1.5)/dpi; p0.x -= 1.0/dpi; p0.y -= 1.0/dpi; DrawRectangle( D, p0, sz, Color, DRAW_FILL ); } static void DrawGridLine( drawCmd_p D, wDrawColor Color, coOrd orig, coOrd * size, DIST_T dpi, BOOL_T clip, coOrd p0, coOrd p1 ) { POS_T x; x = (p0.x*Gdx + p0.y*Gdy) + orig.x; p0.y = (p0.y*Gdx - p0.x*Gdy) + orig.y; p0.x = x; x = (p1.x*Gdx + p1.y*Gdy) + orig.x; p1.y = (p1.y*Gdx - p1.x*Gdy) + orig.y; p1.x = x; if (size && clip && !ClipLine( &p0, &p1, zero, 0.0, *size )) { return; } DrawLine( D, p0, p1, 0, Color ); } EXPORT void DrawGrid( drawCmd_p D, coOrd * size, POS_T hMajSpacing, POS_T vMajSpacing, long Hdivision, long Vdivision, coOrd Gorig, ANGLE_T Gangle, wDrawColor Color, BOOL_T clip ) { int hMaj, hMajCnt0, hMajCnt1, vMaj, vMajCnt0, vMajCnt1; coOrd p0, p1; DIST_T dpi; int hMin, hMinCnt1, vMin, vMinCnt1; DIST_T hMinSpacing=0, vMinSpacing=0; long f; POS_T hMajSpacing_dpi, vMajSpacing_dpi; BOOL_T bigdot; if (hMajSpacing <= 0 && vMajSpacing <= 0) { return; } #ifdef CROSSTICK if (!cross0_bm) { cross0_bm = wDrawBitMapCreate( mainD.d, cross0_width, cross0_height, 2, 2, cross0_bits ); } #endif unsigned long drawOptions = D->options; D->options |= DC_ROUND; unsigned long time0 = wGetTimer(); nDrawGridPoints = 0; wSetCursor( mainD.d, wCursorWait ); dpi = D->dpi/D->scale; Gdx = cos(D2R(Gangle)); Gdy = sin(D2R(Gangle)); Ddx = cos(D2R(-D->angle)); Ddy = sin(D2R(-D->angle)); if (D->options&DC_TICKS) { lborder = LBORDER; bborder = BBORDER; } else { lborder = bborder = 0; } GDorig.x = Gorig.x-D->orig.x; GDorig.y = Gorig.y-D->orig.y; hMajSpacing_dpi = hMajSpacing*dpi; vMajSpacing_dpi = vMajSpacing*dpi; MapGrid( D->orig, D->size, D->angle, Gorig, Gangle, (hMajSpacing>0?hMajSpacing:vMajSpacing), (vMajSpacing>0?vMajSpacing:hMajSpacing), &hMajCnt0, &hMajCnt1, &vMajCnt0, &vMajCnt1 ); hMinCnt1 = vMinCnt1 = 0; if (hMajSpacing_dpi >= minGridSpacing) { p0.y = vMajCnt0*(vMajSpacing>0?vMajSpacing:hMajSpacing); p1.y = vMajCnt1*(vMajSpacing>0?vMajSpacing:hMajSpacing); p0.x = p1.x = hMajCnt0*hMajSpacing; for ( hMaj=hMajCnt0; hMaj 0 ) { hMinSpacing = hMajSpacing/Hdivision; if (hMinSpacing*dpi > minGridSpacing) { hMinCnt1 = (int)Hdivision; } } } if (vMajSpacing_dpi >= minGridSpacing) { p0.x = hMajCnt0*(hMajSpacing>0?hMajSpacing:vMajSpacing); p1.x = hMajCnt1*(hMajSpacing>0?hMajSpacing:vMajSpacing); p0.y = p1.y = vMajCnt0*vMajSpacing; for ( vMaj=vMajCnt0; vMaj 0 ) { vMinSpacing = vMajSpacing/Vdivision; if (vMinSpacing*dpi > minGridSpacing) { vMinCnt1 = (int)Vdivision; } } } if (hMinCnt1 <= 0 && vMinCnt1 <= 0) { goto done; } if (hMajSpacing <= 0) { hMinCnt1 = vMinCnt1+1; hMinSpacing = vMinSpacing; hMajSpacing = vMajSpacing; } else if (hMajSpacing_dpi < minGridSpacing) { hMinCnt1 = 1; hMinSpacing = 0; f = (long)ceil(minGridSpacing/hMajSpacing); hMajSpacing *= f; hMajCnt0 = (int)(hMajCnt0>=0?ceil(hMajCnt0/f):floor(hMajCnt0/f)); hMajCnt1 = (int)(hMajCnt1>=0?ceil(hMajCnt1/f):floor(hMajCnt1/f)); } else if (Hdivision <= 0) { hMinCnt1 = (int)(hMajSpacing/vMinSpacing); if (hMinCnt1 <= 0) { goto done; } hMinSpacing = hMajSpacing/hMinCnt1; } else if (hMinSpacing*dpi < minGridSpacing) { f = (long)ceil(minGridSpacing/hMinSpacing); hMinCnt1 = (int)(Hdivision/f); hMinSpacing *= f; } if (vMajSpacing <= 0) { vMinCnt1 = hMinCnt1+1; vMinSpacing = hMinSpacing; vMajSpacing = hMajSpacing; } else if (vMajSpacing_dpi < minGridSpacing) { vMinCnt1 = 1; vMinSpacing = 0; f = (long)ceil(minGridSpacing/vMajSpacing); vMajSpacing *= f; vMajCnt0 = (int)(vMajCnt0>=0?ceil(vMajCnt0/f):floor(vMajCnt0/f)); vMajCnt1 = (int)(vMajCnt1>=0?ceil(vMajCnt1/f):floor(vMajCnt1/f)); } else if (Vdivision <= 0) { vMinCnt1 = (int)(vMajSpacing/hMinSpacing); if (vMinCnt1 <= 0) { goto done; } vMinSpacing = vMajSpacing/vMinCnt1; } else if (vMinSpacing*dpi < minGridSpacing) { f = (long)ceil(minGridSpacing/vMinSpacing); vMinCnt1 = (int)(Vdivision/f); vMinSpacing *= f; } bigdot = ( hMinSpacing*dpi > 10 && vMinSpacing*dpi > 10 ); for ( hMaj=hMajCnt0; hMajoptions = drawOptions; wSetCursor( mainD.d, defaultCursor ); LOG( log_timedrawgrid, 1, ( "DrawGrid BD = %d, n = %d, time = %lu mS\n", bigdot, nDrawGridPoints, wGetTimer()-time0 ) ); } static void DrawBigCross( coOrd pos, ANGLE_T angle ) { coOrd p0, p1; DIST_T d; if (angleSystem!=ANGLE_POLAR) { angle += 90.0; } d = max( mainD.size.x, mainD.size.y ); Translate( &p0, pos, angle, d ); Translate( &p1, pos, angle+180, d ); if (ClipLine( &p0, &p1, mainD.orig, 0.0, mainD.size )) { DrawLine( &tempD, pos, p0, 0, crossMajorColor ); DrawLine( &tempD, pos, p1, 0, crossMinorColor ); } Translate( &p0, pos, angle+90, d ); Translate( &p1, pos, angle+270, d ); if (ClipLine( &p0, &p1, mainD.orig, 0.0, mainD.size )) { DrawLine( &tempD, p0, p1, 0, crossMinorColor ); } } EXPORT STATUS_T GridAction( wAction_t action, coOrd pos, coOrd *orig, DIST_T *angle ) { static coOrd pos0, pos1; static ANGLE_T newAngle, oldAngle; switch (action) { case C_DOWN: pos1 = pos; return C_CONTINUE; case C_MOVE: *orig = pos1 = pos; return C_CONTINUE; case C_UP: *orig = pos1; return C_CONTINUE; case C_RDOWN: pos0 = pos1 = pos; oldAngle = newAngle = *angle; return C_CONTINUE; case C_RMOVE: if ( FindDistance(pos0, pos) > 0.1*mainD.scale ) { pos1 = pos; newAngle = FindAngle( pos0, pos1 ); if (angleSystem!=ANGLE_POLAR) { newAngle = newAngle-90.0; } newAngle = NormalizeAngle( floor( newAngle*10.0 ) / 10.0 ); *angle = newAngle; } return C_CONTINUE; case C_RUP: Rotate( orig, pos0, newAngle-oldAngle ); *orig = pos0; *angle = newAngle; return C_CONTINUE; case C_REDRAW: DrawBigCross( *orig, *angle ); break; } return C_CONTINUE; } /***************************************************************************** * * Snap Grid Command * */ EXPORT wDrawColor snapGridColor; typedef struct { DIST_T Spacing; long Division; long Enable; } gridData; typedef struct { gridData Horz; gridData Vert; coOrd Orig; ANGLE_T Angle; long Show; } gridHVData; static gridHVData grid = { { 1.0, 0, 1 }, { 1.0, 0, 1 } }; EXPORT BOOL_T SnapPos( coOrd * pos ) { coOrd p; DIST_T spacing; if ((MyGetKeyState() & WKEY_ALT) != 0) { return FALSE; } if ( grid.Vert.Enable == FALSE && grid.Horz.Enable == FALSE ) { return FALSE; } p = *pos; p.x -= grid.Orig.x; p.y -= grid.Orig.y; Rotate( &p, zero, -grid.Angle ); if ( grid.Horz.Enable ) { if ( grid.Horz.Division > 0 ) { spacing = grid.Horz.Spacing / grid.Horz.Division; } else { spacing = grid.Horz.Spacing; } if (spacing > 0.001) { p.x = floor(p.x/spacing+0.5) * spacing; } } if ( grid.Vert.Enable ) { if ( grid.Vert.Division > 0 ) { spacing = grid.Vert.Spacing / grid.Vert.Division; } else { spacing = grid.Vert.Spacing; } if (spacing > 0.001) { p.y = floor(p.y/spacing+0.5) * spacing; } } REORIGIN1( p, grid.Angle, grid.Orig ); *pos = p; InfoPos( p ); return TRUE; } EXPORT BOOL_T SnapPosAngle( coOrd * pos, ANGLE_T * angle ) { if ( SnapPos( pos ) ) { *angle = grid.Angle; return TRUE; } return FALSE; } static void DrawASnapGrid( gridHVData * gridP, drawCmd_p d, coOrd size, BOOL_T drawDivisions ) { if (gridP->Horz.Spacing <= 0.0 && gridP->Vert.Spacing <= 0.0) { return; } if (gridP->Show == FALSE) { return; } DrawGrid( d, &size, gridP->Horz.Spacing, gridP->Vert.Spacing, drawDivisions?gridP->Horz.Division:0, drawDivisions?gridP->Vert.Division:0, gridP->Orig, gridP->Angle, snapGridColor, TRUE ); } EXPORT void DrawSnapGrid( drawCmd_p d, coOrd size, BOOL_T drawDivisions ) { DrawASnapGrid( &grid, d, size, drawDivisions ); } EXPORT BOOL_T GridIsVisible( void ) { return (BOOL_T)grid.Show; } /***************************************************************************** * * Snap Grid Dialog * */ static wWin_p gridW; static wMenu_p snapGridPopupM; static wButton_p snapGridEnable_b; static wButton_p snapGridShow_b; static gridHVData oldGrid; #define CHK_HENABLE (1<<0) #define CHK_VENABLE (1<<1) #define CHK_SHOW (1<<2) static paramFloatRange_t r0_999999 = { 0.0, 999999.0, 60 }; static paramIntegerRange_t i0_1000 = { 0, 1000, 30 }; static paramFloatRange_t r_1000_1000 = { -1000.0, 1000.0, 80 }; static paramFloatRange_t r0_360 = { 0.0, 360.0, 80 }; static char *gridLabels[] = { "", NULL }; static paramData_t gridPLs[] = { { PD_MESSAGE, N_("Horz"), NULL, 0, I2VP(60) }, #define I_HORZSPACING (1) { PD_FLOAT, &grid.Horz.Spacing, "horzspacing", PDO_DIM, &r0_999999, N_("Spacing") }, #define I_HORZDIVISION (2) { PD_LONG, &grid.Horz.Division, "horzdivision", 0, &i0_1000, N_("Divisions") }, #define I_HORZENABLE (3) #define gridHorzEnableT ((wChoice_p)gridPLs[I_HORZENABLE].control) { PD_TOGGLE, &grid.Horz.Enable, "horzenable", 0, gridLabels, N_("Enable"), BC_HORZ|BC_NOBORDER }, { PD_MESSAGE, N_("Vert"), NULL, PDO_DLGNEWCOLUMN|PDO_DLGWIDE, I2VP(60) }, #define I_VERTSPACING (5) { PD_FLOAT, &grid.Vert.Spacing, "vertspacing", PDO_DIM, &r0_999999, NULL }, #define I_VERTDIVISION (6) { PD_LONG, &grid.Vert.Division, "vertdivision", 0, &i0_1000, NULL }, #define I_VERTENABLE (7) #define gridVertEnableT ((wChoice_p)gridPLs[I_VERTENABLE].control) { PD_TOGGLE, &grid.Vert.Enable, "vertenable", 0, gridLabels, NULL, BC_HORZ|BC_NOBORDER }, #define I_VALUEX (8) { PD_FLOAT, &grid.Orig.x, "origx", PDO_DIM|PDO_DLGNEWCOLUMN|PDO_DLGWIDE, &r_1000_1000, N_("X") }, #define I_VALUEY (9) { PD_FLOAT, &grid.Orig.y, "origy", PDO_DIM, &r_1000_1000, N_("Y") }, #define I_VALUEA (10) { PD_FLOAT, &grid.Angle, "origa", PDO_ANGLE, &r0_360, N_("A") }, #define I_SHOW (11) #define gridShowT ((wChoice_p)gridPLs[I_SHOW].control) { PD_TOGGLE, &grid.Show, "show", PDO_DLGIGNORELABELWIDTH, gridLabels, N_("Show"), BC_HORZ|BC_NOBORDER } }; static paramGroup_t gridPG = { "grid", PGO_RECORD, gridPLs, COUNT( gridPLs ) }; static BOOL_T GridChanged( void ) { return grid.Horz.Spacing != oldGrid.Horz.Spacing || grid.Horz.Division != oldGrid.Horz.Division || grid.Vert.Spacing != oldGrid.Vert.Spacing || grid.Vert.Division != oldGrid.Vert.Division || grid.Orig.x != oldGrid.Orig.x || grid.Orig.y != oldGrid.Orig.y || grid.Angle != oldGrid.Angle || grid.Horz.Division != oldGrid.Horz.Division; } static void RedrawGrid( void ) { if (grid.Show != oldGrid.Show || GridChanged() ) { wDrawDelayUpdate( tempD.d, TRUE ); MainRedraw(); // RedrawGrid wDrawDelayUpdate( tempD.d, FALSE ); } } static void GridOk( void * unused ) { long changes; ParamLoadData( &gridPG ); if ( ( grid.Horz.Enable && grid.Horz.Spacing <= 0.0) || ( grid.Vert.Enable && grid.Vert.Spacing <= 0.0) ) { NoticeMessage( MSG_GRID_ENABLE_SPACE_GTR_0, _("Ok"), NULL ); return; } if ( grid.Horz.Spacing <= 0.0 && grid.Vert.Spacing <= 0.0 ) { grid.Show = FALSE; } changes = 0; if ( GridChanged() ) { changes |= CHANGE_GRID; } if (grid.Show != oldGrid.Show || changes != 0) { changes |= CHANGE_MAIN; } DoChangeNotification( changes ); oldGrid = grid; Reset(); } static void GridButtonUpdate( long mode0 ) { long mode1; mode1 = 0; if ( grid.Show && grid.Horz.Spacing <= 0.0 && grid.Vert.Spacing <= 0.0 ) { grid.Show = FALSE; if ( mode0&CHK_SHOW ) { ErrorMessage( MSG_GRID_SHOW_SPACE_GTR_0 ); } } if ( grid.Horz.Enable && grid.Horz.Spacing <= 0.0 ) { grid.Horz.Enable = FALSE; if ( mode0&CHK_HENABLE ) { mode1 |= CHK_HENABLE; } } if ( grid.Vert.Enable && grid.Vert.Spacing <= 0.0 ) { grid.Vert.Enable = FALSE; if ( mode0&CHK_VENABLE ) { mode1 |= CHK_VENABLE; } } if ( mode1 && (mode0&(CHK_HENABLE|CHK_VENABLE)) == mode1 ) { ErrorMessage( MSG_GRID_ENABLE_SPACE_GTR_0 ); } if ( gridShowT && grid.Show != (wToggleGetValue( gridShowT ) != 0) ) { ParamLoadControl( &gridPG, I_SHOW ); } if ( gridHorzEnableT && grid.Horz.Enable != (wToggleGetValue( gridHorzEnableT ) != 0) ) { ParamLoadControl( &gridPG, I_HORZENABLE ); } if ( gridVertEnableT && grid.Vert.Enable != (wToggleGetValue( gridVertEnableT ) != 0) ) { ParamLoadControl( &gridPG, I_VERTENABLE ); } if (snapGridEnable_b) { wButtonSetBusy( snapGridEnable_b, grid.Horz.Enable||grid.Vert.Enable ); } if (snapGridShow_b) { wButtonSetBusy( snapGridShow_b, (wBool_t)grid.Show ); } if (snapGridEnableMI) { wMenuToggleSet( snapGridEnableMI, grid.Horz.Enable||grid.Vert.Enable ); } if (snapGridShowMI) { wMenuToggleSet( snapGridShowMI, (wBool_t)grid.Show ); } if ( mode0&CHK_SHOW ) { RedrawGrid(); } oldGrid = grid; } static void GridChange( long changes ) { if ( (changes&(CHANGE_GRID|CHANGE_UNITS))==0 ) { return; } GridButtonUpdate( 0 ); if (gridW==NULL || !wWinIsVisible(gridW)) { return; } ParamLoadControls( &gridPG ); } static void GridDlgUpdate( paramGroup_p pg, int inx, void * valueP ) { switch ( inx ) { case I_HORZENABLE: GridButtonUpdate( CHK_HENABLE ); break; case I_VERTENABLE: GridButtonUpdate( CHK_VENABLE ); break; case I_SHOW: GridButtonUpdate( CHK_SHOW ); break; default: ParamLoadData( &gridPG ); GridButtonUpdate( 0 ); MainRedraw(); // GridDlgUpdate } } static void SnapGridRotate( void * pangle ) { ANGLE_T angle = (ANGLE_T)VP2L(pangle); wDrawDelayUpdate( tempD.d, TRUE ); grid.Orig = cmdMenuPos; grid.Angle += angle/1000; oldGrid = grid; DrawASnapGrid( &grid, &tempD, mapD.size, TRUE ); wDrawDelayUpdate( tempD.d, FALSE ); ParamLoadControls( &gridPG ); } EXPORT STATUS_T CmdGrid( wAction_t action, coOrd pos ) { STATUS_T rc; switch (action) { case C_START: if (gridW == NULL) { gridW = ParamCreateDialog( &gridPG, MakeWindowTitle(_("Snap Grid")), _("Ok"), GridOk, (paramActionCancelProc)Reset, TRUE, NULL, 0, GridDlgUpdate ); } oldGrid = grid; ParamLoadControls( &gridPG ); wShow( gridW ); return C_CONTINUE; case C_REDRAW: DrawBigCross( grid.Orig, grid.Angle ); return C_CONTINUE; case C_CANCEL: grid = oldGrid; wHide( gridW ); return C_TERMINATE; case C_OK: GridOk( NULL ); return C_TERMINATE; case C_CONFIRM: if (GridChanged() || grid.Show != oldGrid.Show ) { return C_ERROR; } else { return C_CONTINUE; } case C_DOWN: case C_RDOWN: oldGrid = grid; rc = GridAction( action, pos, &grid.Orig, &grid.Angle ); return rc; case C_MOVE: case C_RMOVE: rc = GridAction( action, pos, &grid.Orig, &grid.Angle ); ParamLoadControls( &gridPG ); return rc; case C_UP: case C_RUP: rc = GridAction( action, pos, &grid.Orig, &grid.Angle ); ParamLoadControls( &gridPG ); RedrawGrid(); oldGrid = grid; return rc; case C_CMDMENU: menuPos = pos; wMenuPopupShow( snapGridPopupM ); break; } return C_CONTINUE; } /** * Initialize the user interface for the grid functions. * * \param menu IN pulldown to which the grid function will be added * \return created command button */ EXPORT wIndex_t InitGrid( wMenu_p menu ) { ParamRegister( &gridPG ); RegisterChangeNotification( GridChange ); if ( grid.Horz.Enable && grid.Horz.Spacing <= 0.0 ) { grid.Horz.Enable = FALSE; } if ( grid.Vert.Enable && grid.Vert.Spacing <= 0.0 ) { grid.Vert.Enable = FALSE; } if ( grid.Horz.Spacing <= 0.0 && grid.Vert.Spacing <= 0.0 ) { grid.Show = FALSE; } snapGridPopupM = MenuRegister( "Snap Grid Rotate" ); AddRotateMenu( snapGridPopupM, SnapGridRotate ); GridButtonUpdate( 0 ); log_timedrawgrid = LogFindIndex( "timedrawgrid" ); return AddMenuButton( menu, CmdGrid, "cmdChange Grid...", N_("Change Grid..."), NULL, LEVEL0, IC_CMDMENU, ACCL_GRIDW, NULL ); } EXPORT void SnapGridEnable( void * unused ) { grid.Vert.Enable = grid.Horz.Enable = !( grid.Vert.Enable || grid.Horz.Enable ); GridButtonUpdate( (CHK_HENABLE|CHK_VENABLE) ); } EXPORT void SnapGridShow( void * unused ) { grid.Show = !grid.Show; GridButtonUpdate( CHK_SHOW ); } #include "bitmaps/snap-curs.xpm3" #include "bitmaps/snap-grid.xpm3" EXPORT void InitSnapGridButtons( void ) { snapGridEnable_b = AddToolbarButton( "cmdGridEnable", wIconCreatePixMap(snap_curs_xpm3[iconSize] ), 0, SnapGridEnable, NULL ); snapGridShow_b = AddToolbarButton( "cmdGridShow", wIconCreatePixMap(snap_grid_xpm3[iconSize] ), IC_MODETRAIN_TOO, SnapGridShow, NULL ); }