/** \file cdraw.c * Drawing of geometric elements */ /* 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 "common.h" #include "ccurve.h" #include "cbezier.h" #include "drawgeom.h" #include "fileio.h" #include "param.h" #include "track.h" #include "tbezier.h" #include "misc.h" #include "cselect.h" #include "cundo.h" #include "common-ui.h" static wMenu_p drawModDelMI; static wMenu_p drawModLinMI; static wMenuPush_p drawModDel; static wMenuPush_p drawModSmooth; static wMenuPush_p drawModVertex; static wMenuPush_p drawModRound; static wMenuPush_p drawModriginMode; static wMenuPush_p drawModPointsMode; static wMenuPush_p drawModOrigin; static wMenuPush_p drawModLast; static wMenuPush_p drawModCenter; static wMenuPush_p drawModClose; static wMenuPush_p drawModOpen; static wMenuPush_p drawModFill; static wMenuPush_p drawModEmpty; static wMenuPush_p drawModSolid; static wMenuPush_p drawModDot; static wMenuPush_p drawModDash; static wMenuPush_p drawModDashDot; static wMenuPush_p drawModDashDotDot; static wMenuPush_p drawModCenterDot; static wMenuPush_p drawModPhantom; static long fontSizeList[] = { 4, 5, 6, 7, 8, 10, 12, 14, 16, 18, 20, 24, 28, 32, 36, 40, 48, 56, 64, 72, 80, 90, 100, 120, 140, 160, 180, 200, 250, 300, 350, 400, 450, 500 }; EXPORT void LoadFontSizeList( wList_p list, long curFontSize) { wIndex_t curInx = 0, inx1; int inx; wListClear(list); for (inx = 0; inx < COUNT( fontSizeList ); inx++) { if ((inx == 0 || curFontSize > fontSizeList[inx - 1]) && (curFontSize < fontSizeList[inx])) { sprintf(message, "%ld", curFontSize); curInx = wListAddValue(list, message, NULL, I2VP(curFontSize)); } sprintf(message, "%ld", fontSizeList[inx]); inx1 = wListAddValue(list, message, NULL, I2VP(fontSizeList[inx])); if (curFontSize == fontSizeList[inx]) { curInx = inx1; } } if (curFontSize > fontSizeList[ COUNT( fontSizeList ) - 1]) { sprintf(message, "%ld", curFontSize); curInx = wListAddValue(list, message, NULL, I2VP(curFontSize)); } wListSetIndex(list, curInx); wFlush(); } long GetFontSize(wIndex_t inx) { return(fontSizeList[inx]); } long GetFontSizeIndex(long size) { int i; for (i = 0; i < COUNT( fontSizeList ); i++) { if (fontSizeList[i] == size) { return(i); } } return(-1); } EXPORT void UpdateFontSizeList( long * fontSizeR, wList_p list, wIndex_t listInx ) { long fontSize; long largeFontSize; wPrefGetInteger( "misc", "large-font-size", &largeFontSize, 500 ); if ( listInx >= 0 ) { *fontSizeR = VP2L( wListGetItemContext( list, listInx )); } else { wListGetValues( list, message, sizeof message, NULL, NULL ); if ( message[0] != '\0' ) { fontSize = atol( message ); if ( fontSize <= 0 ) { NoticeMessage( _("Font Size must be > 0"), _("Ok"), NULL ); sprintf( message, "%ld", *fontSizeR ); wListSetValue( list, message ); } else { if ( fontSize <= largeFontSize || NoticeMessage( MSG_LARGE_FONT, _("Yes"), _("No") ) > 0 ) { if ( fontSize > largeFontSize ) { largeFontSize = fontSize; wPrefSetInteger( "misc", "large-font-size", largeFontSize ); } *fontSizeR = fontSize; /* inform gtkfont dialog from change */ wSetSelectedFontSize((wFontSize_t)fontSize); /*LoadFontSizeList( list, *fontSizeR );*/ } else { sprintf( message, "%ld", *fontSizeR ); wListSetValue( list, message ); } } } } } /******************************************************************************* * * DRAW * */ typedef struct extraDataDraw_t { extraDataBase_t base; coOrd orig; ANGLE_T angle; drawLineType_e lineType; wIndex_t segCnt; trkSeg_t segs[1]; } extraDataDraw_t; static TRKTYP_T T_DRAW = -1; static track_p ignoredTableEdge; static track_p ignoredDraw; static void ComputeDrawBoundingBox( track_p t ) { struct extraDataDraw_t * xx = GET_EXTRA_DATA(t, T_DRAW, extraDataDraw_t); coOrd lo, hi; GetSegBounds( xx->orig, xx->angle, xx->segCnt, xx->segs, &lo, &hi ); hi.x += lo.x; hi.y += lo.y; SetBoundingBox( t, hi, lo ); } static track_p MakeDrawFromSeg1( wIndex_t index, coOrd pos, ANGLE_T angle, trkSeg_p sp ) { struct extraDataDraw_t * xx; track_p trk; if ( sp->type == ' ' ) { return NULL; } if (sp->type == SEG_BEZLIN) { trk = NewBezierLine(sp->u.l.pos, NULL, 0, sp->color, sp->lineWidth); trkSeg_p spb = &DYNARR_N(trkSeg_t, sp->bezSegs, 0); FixUpBezierSegs(spb, sp->bezSegs.cnt); MoveBezier(trk, pos); RotateBezier(trk, pos, angle); return trk; } trk = NewTrack( index, T_DRAW, 0, sizeof *xx ); xx = GET_EXTRA_DATA(trk, T_DRAW, extraDataDraw_t); xx->orig = pos; xx->angle = angle; xx->segCnt = 1; xx->lineType = DRAWLINESOLID; memcpy( xx->segs, sp, sizeof *(trkSeg_p)0 ); if (xx->segs[0].type == SEG_POLY || xx->segs[0].type == SEG_FILPOLY ) { xx->segs[0].u.p.pts = (pts_t*)MyMalloc( (sp->u.p.cnt) * sizeof (pts_t) ); memcpy(xx->segs[0].u.p.pts, sp->u.p.pts, sp->u.p.cnt * sizeof (pts_t) ); } if (xx->segs[0].type == SEG_TEXT) { xx->segs[0].u.t.string = MyStrdup(sp->u.t.string); } ComputeDrawBoundingBox( trk ); return trk; } EXPORT track_p MakeDrawFromSeg( coOrd pos, ANGLE_T angle, trkSeg_p sp ) { return MakeDrawFromSeg1( 0, pos, angle, sp ); } int SliceCuts(ANGLE_T a, DIST_T radius) { double Error = 0.05; double Error_angle = acos(1-(Error/fabs(radius))); if (Error_angle <0.0001) { return 0; } return (int)(floor(D2R(a)/(2*Error_angle))); } /* Only straight, curved and PolyLine */ EXPORT track_p MakePolyLineFromSegs( coOrd pos, ANGLE_T angle, dynArr_t * segsArr) { struct extraDataDraw_t * xx; track_p trk; trk = NewTrack( 0, T_DRAW, 0, sizeof *xx ); xx = GET_EXTRA_DATA( trk, T_DRAW, extraDataDraw_t ); xx->orig = pos; xx->angle = angle; xx->lineType = DRAWLINESOLID; xx->segCnt = 1; xx->segs[0].type = SEG_POLY; xx->segs[0].lineWidth = 0; xx->segs[0].u.p.polyType = POLYLINE; xx->segs[0].color = wDrawColorBlack; coOrd last; BOOL_T first = TRUE; int cnt = 0; for (int i=0; icnt; i++) { trkSeg_p sp = &DYNARR_N(trkSeg_t,*segsArr,i); if (sp->type == SEG_BEZLIN || sp->type == SEG_BEZTRK ) { for (int j=0; jbezSegs.cnt; j++) { trkSeg_p spb = &DYNARR_N(trkSeg_t,sp->bezSegs,j); if (spb->type == SEG_STRLIN || spb->type == SEG_STRTRK) { if (!first && IsClose(FindDistance(spb->u.l.pos[0], last))) { cnt++; } else { cnt=cnt+2; } last = spb->u.l.pos[1]; first = FALSE; } else if (spb->type == SEG_CRVLIN || spb->type == SEG_CRVTRK) { coOrd this; if (spb->u.c.radius >= 0.0) { Translate(&this, spb->u.c.center, spb->u.c.a0, fabs(spb->u.c.radius)); } else { Translate(&this, spb->u.c.center, spb->u.c.a0+spb->u.c.a1, fabs(spb->u.c.radius)); } if (first || !IsClose(FindDistance(this, last))) { cnt++; //Add first point } cnt += 1 + SliceCuts(spb->u.c.a1,spb->u.c.radius); if (spb->u.c.radius >= 0.0) { Translate(&last, spb->u.c.center, spb->u.c.a0+spb->u.c.a1, fabs(spb->u.c.radius)); } else { Translate(&last, spb->u.c.center, spb->u.c.a0, fabs(spb->u.c.radius)); } first = FALSE; } } } else if (sp->type == SEG_STRLIN || sp->type == SEG_STRTRK) { if (!first && IsClose(FindDistance(sp->u.l.pos[0], last))) { cnt++; } else { cnt=cnt+2; } last = sp->u.l.pos[1]; first = FALSE; } else if (sp->type == SEG_CRVLIN || sp->type == SEG_CRVTRK) { coOrd this; if (sp->u.c.radius >= 0.0) { Translate(&this, sp->u.c.center, sp->u.c.a0, fabs(sp->u.c.radius)); } else { Translate(&this, sp->u.c.center, sp->u.c.a0+sp->u.c.a1, fabs(sp->u.c.radius)); } if (first || !IsClose(FindDistance(this, last))) { cnt++; //Add first point } cnt += 1+ SliceCuts(sp->u.c.a1,sp->u.c.radius); if (sp->u.c.radius >= 0.0) { Translate(&last, sp->u.c.center, sp->u.c.a0+sp->u.c.a1, fabs(sp->u.c.radius)); } else { Translate(&last, sp->u.c.center, sp->u.c.a0, fabs(sp->u.c.radius)); } first = FALSE; } else if (sp->type == SEG_POLY) { if (!first && IsClose(FindDistance(sp->u.p.pts[0].pt, last))) { cnt = cnt + sp->u.p.cnt-1; } else { cnt = cnt + sp->u.p.cnt; } last = sp->u.p.pts[sp->u.p.cnt-1].pt; first = FALSE; } } xx->segs[0].u.p.cnt = cnt; xx->segs[0].u.p.pts = (pts_t*)MyMalloc( (cnt) * sizeof (pts_t) ); first = TRUE; int j =0; for (int i=0; icnt; i++) { trkSeg_p sp = &DYNARR_N(trkSeg_t,*segsArr,i); if (sp->type == SEG_BEZLIN || sp->type == SEG_BEZTRK ) { for (int l=0; lbezSegs.cnt; l++) { trkSeg_p spb = &DYNARR_N(trkSeg_t,sp->bezSegs,l); if (spb->type == SEG_STRLIN || spb->type == SEG_STRTRK) { if (first || !IsClose(FindDistance(spb->u.l.pos[0], last))) { xx->segs[0].u.p.pts[j].pt = spb->u.l.pos[0]; xx->segs[0].u.p.pts[j].pt_type = wPolyLineStraight; j++; } xx->segs[0].u.p.pts[j].pt = spb->u.l.pos[1]; xx->segs[0].u.p.pts[j].pt_type = wPolyLineStraight; last = xx->segs[0].u.p.pts[j].pt; j ++; first = FALSE; } if (spb->type == SEG_CRVLIN || spb->type == SEG_CRVTRK) { coOrd this; if (spb->u.c.radius>=0.0) { Translate(&this, spb->u.c.center, spb->u.c.a0, fabs(spb->u.c.radius)); } else { Translate(&this, spb->u.c.center, spb->u.c.a0+spb->u.c.a1, fabs(spb->u.c.radius)); } if (first || !IsClose(FindDistance(this, last))) { xx->segs[0].u.p.pts[j].pt= this; xx->segs[0].u.p.pts[j].pt_type = wPolyLineStraight; j++; } int slices = SliceCuts(spb->u.c.a1,spb->u.c.radius); for (int k=1; ku.c.radius>=0.0) { Translate(&xx->segs[0].u.p.pts[j].pt, spb->u.c.center, spb->u.c.a0+(k*(spb->u.c.a1/(slices))), fabs(spb->u.c.radius)); } else { Translate(&xx->segs[0].u.p.pts[j].pt, spb->u.c.center, spb->u.c.a0+((slices-k)*(spb->u.c.a1/(slices))), fabs(spb->u.c.radius)); } xx->segs[0].u.p.pts[j].pt_type = wPolyLineSmooth; j++; } if (spb->u.c.radius>=0.0) { Translate(&xx->segs[0].u.p.pts[j].pt, spb->u.c.center, spb->u.c.a0+spb->u.c.a1, fabs(spb->u.c.radius)); } else { Translate(&xx->segs[0].u.p.pts[j].pt, spb->u.c.center, spb->u.c.a0, fabs(spb->u.c.radius)); } xx->segs[0].u.p.pts[j].pt_type = wPolyLineStraight; last = xx->segs[0].u.p.pts[j].pt; j++; first = FALSE; } } } if (sp->type == SEG_STRLIN || sp->type == SEG_STRTRK) { if (first || !IsClose(FindDistance(sp->u.l.pos[0], last))) { xx->segs[0].u.p.pts[j].pt = sp->u.l.pos[0]; xx->segs[0].u.p.pts[j].pt_type = wPolyLineStraight; j++; } xx->segs[0].u.p.pts[j].pt = last = sp->u.l.pos[1]; xx->segs[0].u.p.pts[j].pt_type = wPolyLineStraight; last = xx->segs[0].u.p.pts[j].pt; j++; first = FALSE; } if (sp->type == SEG_CRVLIN || sp->type == SEG_CRVTRK) { coOrd this; if (sp->u.c.radius>0) { Translate(&this, sp->u.c.center, sp->u.c.a0, fabs(sp->u.c.radius)); } else { Translate(&this, sp->u.c.center, sp->u.c.a0+sp->u.c.a1, fabs(sp->u.c.radius)); } if (first || !IsClose(FindDistance(this, last))) { xx->segs[0].u.p.pts[j].pt= this; xx->segs[0].u.p.pts[j].pt_type = wPolyLineStraight; j++; } int slices = SliceCuts(sp->u.c.a1,sp->u.c.radius); for (int k=1; ku.c.radius>0) { Translate(&xx->segs[0].u.p.pts[j].pt, sp->u.c.center, sp->u.c.a0+(k*(sp->u.c.a1/(slices))), fabs(sp->u.c.radius)); } else { Translate(&xx->segs[0].u.p.pts[j].pt, sp->u.c.center, sp->u.c.a0+((slices-k)*(sp->u.c.a1/(slices))), fabs(sp->u.c.radius)); } xx->segs[0].u.p.pts[j].pt_type = wPolyLineSmooth; j++; } if (sp->u.c.radius>0) { Translate(&xx->segs[0].u.p.pts[j].pt, sp->u.c.center, sp->u.c.a0+sp->u.c.a1, fabs(sp->u.c.radius)); } else { Translate(&xx->segs[0].u.p.pts[j].pt, sp->u.c.center, sp->u.c.a0, fabs(sp->u.c.radius)); } xx->segs[0].u.p.pts[j].pt_type = wPolyLineStraight; last = xx->segs[0].u.p.pts[j].pt; j++; first = FALSE; } if (sp->type == SEG_POLY) { if (first || !IsClose(FindDistance(sp->u.p.pts[0].pt, last))) { xx->segs[0].u.p.pts[j] = sp->u.p.pts[0]; j++; } memcpy(&xx->segs[0].u.p.pts[j],&sp->u.p.pts[1], (sp->u.p.cnt-1) * sizeof (pts_t)); last = xx->segs[0].u.p.pts[sp->u.p.cnt-1].pt; j +=sp->u.p.cnt-1; first = FALSE; } CHECK(j<=cnt); } xx->segs[0].u.p.cnt = j; if (IsClose(FindDistance(xx->segs[0].u.p.pts[0].pt, xx->segs[0].u.p.pts[xx->segs[0].u.p.cnt-1].pt))) { xx->segs[0].u.p.polyType = FREEFORM; xx->segs[0].u.p.cnt = xx->segs[0].u.p.cnt-1; } ComputeDrawBoundingBox( trk ); return trk; } static dynArr_t anchors_da; #define anchors(N) DYNARR_N(trkSeg_t,anchors_da,N) void static CreateOriginAnchor(coOrd origin, wBool_t trans_selected) { double d = tempD.scale*0.15; DYNARR_APPEND(trkSeg_t,anchors_da,2); int i = anchors_da.cnt-1; coOrd p0,p1; Translate(&p0,origin,0,d*4); Translate(&p1,origin,0,-d*4); anchors(i).type = SEG_STRLIN; anchors(i).u.l.pos[0] = p0; anchors(i).u.l.pos[1] = p1; anchors(i).color = wDrawColorBlue; anchors(i).lineWidth = 0; DYNARR_APPEND(trkSeg_t,anchors_da,1); Translate(&p0,origin,90,d*4); Translate(&p1,origin,90,-d*4); i = anchors_da.cnt-1; anchors(i).type = SEG_STRLIN; anchors(i).u.l.pos[0] = p0; anchors(i).u.l.pos[1] = p1; anchors(i).color = wDrawColorBlue; anchors(i).lineWidth = 0; } EXPORT void DrawOriginAnchor(track_p trk) { if (!trk || GetTrkType(trk) != T_DRAW) { return; } struct extraDataDraw_t * xx = GET_EXTRA_DATA(trk, T_DRAW, extraDataDraw_t); if ((xx->orig.x != 0.0) || (xx->orig.y !=0.0) ) { DYNARR_RESET(trkSeg_t,anchors_da); CreateOriginAnchor(xx->orig,FALSE); DrawSegsDA(&tempD, NULL, zero, 0.0, &anchors_da, trackGauge, wDrawColorBlue, 0); } } static DIST_T DistanceDraw( track_p t, coOrd * p ) { struct extraDataDraw_t * xx = GET_EXTRA_DATA(t, T_DRAW, extraDataDraw_t); if ( ignoredTableEdge == t && xx->segs[0].type == SEG_TBLEDGE ) { return DIST_INF; } if ( ignoredDraw == t ) { return DIST_INF; } return DistanceSegs( xx->orig, xx->angle, xx->segCnt, xx->segs, p, NULL ); } static struct { coOrd endPt[4]; coOrd origin; coOrd oldOrigin; coOrd oldE0; coOrd oldE1; FLOAT_T length; FLOAT_T height; FLOAT_T width; coOrd center; DIST_T radius; ANGLE_T angle0; ANGLE_T angle1; ANGLE_T angle; ANGLE_T rotate_angle; ANGLE_T oldAngle; long pointCount; LWIDTH_T lineWidth; BOOL_T boxed; BOOL_T filled; BOOL_T open; BOOL_T lock_origin; wDrawColor color; wIndex_t benchChoice; wIndex_t benchOrient; wIndex_t dimenSize; descPivot_t pivot; wIndex_t fontSizeInx; char text[STR_HUGE_SIZE]; unsigned int layer; wIndex_t lineType; } drawData; typedef enum { E0, E1, PP, CE, AL, LA, A1, A2, RD, LN, HT, WT, PV, VC, LW, LT, CO, FL, OP, BX, BE, OR, DS, TP, TA, TS, TX, LK, OI, RA, LY } drawDesc_e; static descData_t drawDesc[] = { /*E0*/ { DESC_POS, N_("End Pt 1: X,Y"), &drawData.endPt[0] }, /*E1*/ { DESC_POS, N_("End Pt 2: X,Y"), &drawData.endPt[1] }, /*PP*/ { DESC_POS, N_("First Point: X,Y"), &drawData.endPt[0] }, /*CE*/ { DESC_POS, N_("Center: X,Y"), &drawData.center }, /*AL*/ { DESC_FLOAT, N_("Angular Length"), &drawData.angle }, /*LA*/ { DESC_FLOAT, N_("Line Angle"), &drawData.angle }, /*A1*/ { DESC_ANGLE, N_("CCW Angle"), &drawData.angle0 }, /*A2*/ { DESC_ANGLE, N_("CW Angle"), &drawData.angle1 }, /*RD*/ { DESC_DIM, N_("Radius"), &drawData.radius }, /*LN*/ { DESC_DIM, N_("Length"), &drawData.length }, /*HT*/ { DESC_DIM, N_("Height"), &drawData.height }, /*WT*/ { DESC_DIM, N_("Width"), &drawData.width }, /*PV*/ { DESC_PIVOT, N_("Pivot"), &drawData.pivot }, /*VC*/ { DESC_LONG, N_("Point Count"), &drawData.pointCount }, /*LW*/ { DESC_FLOAT, N_("Line Width"), &drawData.lineWidth }, /*LT*/ { DESC_LIST, N_("Line Type"), &drawData.lineType }, /*CO*/ { DESC_COLOR, N_("Color"), &drawData.color }, /*FL*/ { DESC_BOXED, N_("Filled"), &drawData.filled }, /*OP*/ { DESC_BOXED, N_("Open End"), &drawData.open }, /*BX*/ { DESC_BOXED, N_("Boxed"), &drawData.boxed }, /*BE*/ { DESC_LIST, N_("Lumber"), &drawData.benchChoice }, /*OR*/ { DESC_LIST, N_("Orientation"), &drawData.benchOrient }, /*DS*/ { DESC_LIST, N_("Size"), &drawData.dimenSize }, /*TP*/ { DESC_POS, N_("Text Origin: X,Y"), &drawData.endPt[0] }, /*TA*/ { DESC_FLOAT, N_("Text Angle"), &drawData.angle }, /*TS*/ { DESC_EDITABLELIST, N_("Font Size"), &drawData.fontSizeInx }, /*TX*/ { DESC_TEXT, N_("Text"), &drawData.text }, /*LK*/ { DESC_BOXED, N_("Lock To Origin"), &drawData.lock_origin}, /*OI*/ { DESC_POS, N_("Rot Origin: X,Y"), &drawData.origin }, /*RA*/ { DESC_FLOAT, N_("Rotate By"), &drawData.rotate_angle }, /*LY*/ { DESC_LAYER, N_("Layer"), &drawData.layer }, { DESC_NULL } }; static int drawSegInx; #define UNREORIGIN( Q, P, A, O ) { \ (Q) = (P); \ (Q).x -= (O).x; \ (Q).y -= (O).y; \ if ( (A) != 0.0 ) \ Rotate( &(Q), zero, -(A) ); \ } /* * Notes - * * In V5.1, Origin was always {0,0} and Angle 0.0 after editing a Draw object. * This did not allow for the use of the objects in other contexts (such as Signal Arms). * * In V5.2 - * * OI - Origin will be adjusted if it is locked to remain relative to the end point - this equally applies when moving the object points. * If not locked, the object points will be set relative to the new origin value, * so that the object remains at the same place as the user specifies. * If the edit starts with origin {0,0}, it will be set unlocked, otherwise set locked. * * RA - Rotate By Angle will only be active if the Origin is locked. * It will be set to 0.0 whenever the object is modified. * * At the end of the operations, the points of the objects will be rotated so that * rotated and adjusted so they don't need rotation to lie where the user left them. * */ static void UpdateDraw( track_p trk, int inx, descData_p descUpd, BOOL_T final ) { struct extraDataDraw_t *xx = GET_EXTRA_DATA(trk, T_DRAW, extraDataDraw_t); trkSeg_p segPtr; coOrd mid; long fontSize; if ( drawSegInx==-1 ) { return; } segPtr = &xx->segs[drawSegInx]; if ( inx == -1 ) { if (segPtr->type != SEG_TEXT) { return; } else { inx = TX; } //Always look at TextField for SEG_TEXT on "Done" } UndrawNewTrack( trk ); coOrd pt; coOrd off; switch ( inx ) { case LW: segPtr->lineWidth = drawData.lineWidth; break; case CO: segPtr->color = drawData.color; break; case E0: case E1: if ( inx == E0 ) { coOrd off; off.x = drawData.endPt[0].x - drawData.oldE0.x; off.y = drawData.endPt[0].y - drawData.oldE0.y; switch(segPtr->type) { //E0 does not alter length - translates case SEG_STRLIN: case SEG_DIMLIN: case SEG_BENCH: case SEG_TBLEDGE: UNREORIGIN( segPtr->u.l.pos[0], drawData.endPt[0], 0.0, xx->orig ); drawData.endPt[1].x = off.x+drawData.endPt[1].x; drawData.endPt[1].y = off.y+drawData.endPt[1].y; UNREORIGIN( segPtr->u.l.pos[1], drawData.endPt[1], 0.0, xx->orig ); drawDesc[E1].mode |= DESC_CHANGE; break; case SEG_CRVLIN: case SEG_FILCRCL: UNREORIGIN( segPtr->u.c.center, drawData.endPt[0], 0.0, xx->orig ); break; case SEG_POLY: case SEG_FILPOLY: break; //Note not used by POLYGONS default:; } } else { UNREORIGIN( segPtr->u.l.pos[1], drawData.endPt[1], 0.0, xx->orig ); } drawData.length = FindDistance( drawData.endPt[0], drawData.endPt[1] ); drawDesc[LN].mode |= DESC_CHANGE; break; case OI: ; off.x = drawData.origin.x-xx->orig.x; off.y = drawData.origin.y-xx->orig.y; xx->orig = drawData.origin; if (!drawData.lock_origin) { //Move the points so that the object is not moved switch(segPtr->type) { case SEG_POLY: case SEG_FILPOLY: for (int i=0; iu.p.cnt; i++) { UNREORIGIN( segPtr->u.p.pts[i].pt, segPtr->u.p.pts[i].pt, 0.0, off ); } break; case SEG_STRLIN: case SEG_DIMLIN: case SEG_BENCH: case SEG_TBLEDGE: for (int i=0; i<2; i++) { UNREORIGIN( segPtr->u.l.pos[i], segPtr->u.l.pos[i], 0.0, off ); } break; case SEG_CRVLIN: case SEG_FILCRCL: UNREORIGIN( segPtr->u.c.center, segPtr->u.c.center, 0.0, off ); break; case SEG_TEXT: UNREORIGIN( segPtr->u.t.pos, segPtr->u.t.pos, 0.0, off ); default:; } } else { switch(segPtr->type) { case SEG_STRLIN: case SEG_DIMLIN: case SEG_BENCH: case SEG_TBLEDGE: REORIGIN( drawData.endPt[0], segPtr->u.l.pos[0], 0.0, xx->orig ); REORIGIN( drawData.endPt[1], segPtr->u.l.pos[1], 0.0, xx->orig ); drawDesc[E0].mode |= DESC_CHANGE; drawDesc[E1].mode |= DESC_CHANGE; break; case SEG_CRVLIN: case SEG_FILCRCL: REORIGIN( drawData.center, segPtr->u.c.center, 0.0, xx->orig ); drawDesc[CE].mode |= DESC_CHANGE; break; case SEG_TEXT: REORIGIN( drawData.endPt[0], segPtr->u.t.pos, 0.0, xx->orig ); drawDesc[TP].mode |= DESC_CHANGE; break; case SEG_POLY: case SEG_FILPOLY: REORIGIN(drawData.endPt[0], segPtr->u.p.pts[0].pt, 0.0, xx->orig); drawDesc[PP].mode |= DESC_CHANGE; break; default:; } } break; case HT: case WT: if ((segPtr->type == SEG_POLY) || (segPtr->type == SEG_FILPOLY)) { if (segPtr->u.p.polyType == RECTANGLE) { if (inx == HT) { ANGLE_T angle = NormalizeAngle(FindAngle(drawData.endPt[0],drawData.endPt[3])); Translate( &drawData.endPt[3], drawData.endPt[0], angle, drawData.height); UNREORIGIN( segPtr->u.p.pts[3].pt, drawData.endPt[3], xx->angle, xx->orig ); Translate( &drawData.endPt[2], drawData.endPt[1], angle, drawData.height); UNREORIGIN( segPtr->u.p.pts[2].pt, drawData.endPt[2], xx->angle, xx->orig ); } else { ANGLE_T angle = NormalizeAngle(FindAngle(drawData.endPt[0],drawData.endPt[1]));; Translate( &drawData.endPt[1], drawData.endPt[0], angle, drawData.width); UNREORIGIN( segPtr->u.p.pts[1].pt, drawData.endPt[1], xx->angle, xx->orig ); Translate( &drawData.endPt[2], drawData.endPt[3], angle, drawData.width); UNREORIGIN( segPtr->u.p.pts[2].pt, drawData.endPt[2], xx->angle, xx->orig ); } drawDesc[E0].mode |= DESC_CHANGE; } } break; case RA:; //Only applies if "Lock" has been set if (drawData.lock_origin) { ANGLE_T angle = NormalizeAngle(drawData.rotate_angle); switch(segPtr->type) { case SEG_POLY: case SEG_FILPOLY: for (int i=0; iu.p.cnt; i++) { UNREORIGIN(pt, segPtr->u.p.pts[i].pt, angle, drawData.origin); REORIGIN(segPtr->u.p.pts[i].pt, pt, 0.0, drawData.origin); if (i == 0) { drawData.endPt[0] = pt; } } drawDesc[PP].mode |= DESC_CHANGE; break; case SEG_CRVLIN:; coOrd end0, end1; Translate(&end0,segPtr->u.c.center,segPtr->u.c.a0,segPtr->u.c.radius); Translate(&end1,segPtr->u.c.center,segPtr->u.c.a0+segPtr->u.c.a1, segPtr->u.c.radius); REORIGIN(drawData.center, segPtr->u.c.center, angle, drawData.origin); REORIGIN(end0, end0, angle, drawData.origin); REORIGIN(end1, end1, angle, drawData.origin); segPtr->u.c.a0 = drawData.angle0 = FindAngle( drawData.center, end0); drawData.angle1 = FindAngle( drawData.center, end1); UNREORIGIN(segPtr->u.c.center,drawData.center,0.0,drawData.origin); drawDesc[CE].mode |= DESC_CHANGE; drawDesc[A1].mode |= DESC_CHANGE; /*no break*/ case SEG_FILCRCL: REORIGIN(drawData.center, segPtr->u.c.center, angle, drawData.origin); //Remove angle UNREORIGIN(segPtr->u.c.center, drawData.center, 0.0, drawData.origin); drawDesc[CE].mode |= DESC_CHANGE; break; case SEG_STRLIN: case SEG_DIMLIN: case SEG_BENCH: case SEG_TBLEDGE: for (int i=0; i<2; i++) { REORIGIN( drawData.endPt[i], segPtr->u.l.pos[i], angle, drawData.origin ); UNREORIGIN( segPtr->u.l.pos[i], drawData.endPt[i], 0.0, drawData.origin ); } drawDesc[E0].mode |= DESC_CHANGE; drawDesc[E1].mode |= DESC_CHANGE; break; case SEG_TEXT:; coOrd tp; REORIGIN( tp, segPtr->u.t.pos, angle, drawData.origin ); UNREORIGIN( segPtr->u.t.pos, tp, 0.0, drawData.origin ); drawData.endPt[0] = tp; drawData.angle = segPtr->u.t.angle += angle; drawDesc[TA].mode |= DESC_CHANGE; drawDesc[TP].mode |= DESC_CHANGE; break; default:; } } xx->angle = drawData.rotate_angle = 0.0; if (!drawData.lock_origin) { drawDesc[RA].mode = DESC_RO; } drawDesc[RA].mode |= DESC_CHANGE; break; case AL: //Uses Pivot Point case LA:; ANGLE_T angle = NormalizeAngle(drawData.angle); switch(segPtr->type) { case SEG_POLY: case SEG_FILPOLY: break; //Doesn't Use case SEG_CRVLIN: //Uses as swept angle switch ( drawData.pivot ) { case DESC_PIVOT_FIRST: segPtr->u.c.a1 = drawData.angle; drawData.angle1 = NormalizeAngle( drawData.angle0+segPtr->u.c.a1 ); drawDesc[A2].mode |= DESC_CHANGE; break; case DESC_PIVOT_SECOND: segPtr->u.c.a0 = NormalizeAngle( segPtr->u.c.a1+segPtr->u.c.a0-drawData.angle); segPtr->u.c.a1 = drawData.angle; drawData.angle0 = NormalizeAngle( segPtr->u.c.a0 ); drawData.angle1 = NormalizeAngle( drawData.angle0+segPtr->u.c.a1 ); drawDesc[A1].mode |= DESC_CHANGE; drawDesc[A2].mode |= DESC_CHANGE; break; case DESC_PIVOT_MID: segPtr->u.c.a0 = NormalizeAngle( segPtr->u.c.a0+segPtr->u.c.a1/2.0 -drawData.angle/2.0); segPtr->u.c.a1 = drawData.angle; drawData.angle0 = NormalizeAngle( segPtr->u.c.a0 ); drawData.angle1 = NormalizeAngle( drawData.angle0+segPtr->u.c.a1 ); drawDesc[A1].mode |= DESC_CHANGE; drawDesc[A2].mode |= DESC_CHANGE; break; default: break; } drawData.length = 2*M_PI*segPtr->u.c.radius*segPtr->u.c.a1/360; drawDesc[LN].mode = DESC_RO|DESC_CHANGE; break; case SEG_FILCRCL: break; //Doesn't Use case SEG_STRLIN: case SEG_DIMLIN: case SEG_BENCH: case SEG_TBLEDGE: switch ( drawData.pivot ) { case DESC_PIVOT_FIRST: Translate(&drawData.endPt[1],drawData.endPt[0],angle,drawData.length); UNREORIGIN(segPtr->u.l.pos[1], drawData.endPt[1], 0.0, xx->orig ); drawDesc[E1].mode |= DESC_CHANGE; break; case DESC_PIVOT_MID:; coOrd middle; middle.x = (drawData.endPt[1].x+drawData.endPt[0].x)/2; middle.y = (drawData.endPt[1].y+drawData.endPt[0].y)/2; Translate(&drawData.endPt[0],middle,NormalizeAngle(angle+180), drawData.length/2); Translate(&drawData.endPt[1],middle,angle,drawData.length/2); UNREORIGIN(segPtr->u.l.pos[0], drawData.endPt[0], 0.0, xx->orig ); UNREORIGIN(segPtr->u.l.pos[1], drawData.endPt[1], 0.0, xx->orig ); drawDesc[E0].mode |= DESC_CHANGE; drawDesc[E1].mode |= DESC_CHANGE; break; case DESC_PIVOT_SECOND: Translate(&drawData.endPt[0],drawData.endPt[1],NormalizeAngle(angle+180), drawData.length); UNREORIGIN(segPtr->u.l.pos[0], drawData.endPt[0], 0.0, xx->orig ); drawDesc[E0].mode |= DESC_CHANGE; break; default: break; } break; case SEG_TEXT: break; //Doesnt Use default:; } break; case LN: if ( drawData.length <= minLength ) { ErrorMessage( MSG_OBJECT_TOO_SHORT ); drawData.length = fabs(segPtr->u.c.radius)*2*M_PI*segPtr->u.c.a1/360.0; drawDesc[LN].mode |= DESC_CHANGE; break; } if ( segPtr->type != SEG_CRVLIN ) { switch ( drawData.pivot ) { case DESC_PIVOT_FIRST: Translate( &drawData.endPt[1], drawData.endPt[0], drawData.angle, drawData.length ); UNREORIGIN( segPtr->u.l.pos[1], drawData.endPt[1], 0.0, xx->orig ); drawDesc[E1].mode |= DESC_CHANGE; break; case DESC_PIVOT_SECOND: Translate( &drawData.endPt[0], drawData.endPt[1], drawData.angle+180.0, drawData.length ); UNREORIGIN( segPtr->u.l.pos[0], drawData.endPt[0], 0.0, xx->orig ); drawDesc[E0].mode |= DESC_CHANGE; break; case DESC_PIVOT_MID: mid.x = (drawData.endPt[0].x+drawData.endPt[1].x)/2.0; mid.y = (drawData.endPt[0].y+drawData.endPt[1].y)/2.0; Translate( &drawData.endPt[0], mid, drawData.angle+180.0, drawData.length/2.0 ); Translate( &drawData.endPt[1], mid, drawData.angle, drawData.length/2.0 ); UNREORIGIN( segPtr->u.l.pos[0], drawData.endPt[0], 0.0, xx->orig ); UNREORIGIN( segPtr->u.l.pos[1], drawData.endPt[1], 0.0, xx->orig ); drawDesc[E0].mode |= DESC_CHANGE; drawDesc[E1].mode |= DESC_CHANGE; break; default: break; } } break; case CE: UNREORIGIN( segPtr->u.c.center, drawData.center, 0.0, xx->orig ); break; case RD: if ( drawData.pivot == DESC_PIVOT_FIRST ) { Translate( &segPtr->u.c.center, segPtr->u.c.center, segPtr->u.c.a0, segPtr->u.c.radius-drawData.radius ); } else if ( drawData.pivot == DESC_PIVOT_SECOND ) { Translate( &segPtr->u.c.center, segPtr->u.c.center, segPtr->u.c.a0+segPtr->u.c.a1, segPtr->u.c.radius-drawData.radius ); } else { Translate( &segPtr->u.c.center, segPtr->u.c.center, (segPtr->u.c.a0+segPtr->u.c.a1)/2.0, segPtr->u.c.radius-drawData.radius ); } drawDesc[CE].mode |= DESC_CHANGE; segPtr->u.c.radius = drawData.radius; drawData.length = 2*M_PI*segPtr->u.c.radius*(segPtr->type==SEG_CRVLIN ?segPtr->u.c.a1/360:1.0); drawDesc[LN].mode = DESC_RO|DESC_CHANGE; break; case A1: //Angle of first point of curve segPtr->u.c.a0 = NormalizeAngle(drawData.angle0); drawData.angle1 = NormalizeAngle(segPtr->u.c.a0+segPtr->u.c.a1); drawDesc[A2].mode |= DESC_CHANGE; break; case A2: segPtr->u.c.a0 = NormalizeAngle( drawData.angle1-segPtr->u.c.a1); drawData.angle0 = NormalizeAngle( segPtr->u.c.a0 ); drawDesc[A1].mode |= DESC_CHANGE; break; case BE: BenchUpdateOrientationList( VP2L( wListGetItemContext((wList_p) drawDesc[BE].control0, drawData.benchChoice)), (wList_p)drawDesc[OR].control0 ); if ( drawData.benchOrient < wListGetCount( (wList_p)drawDesc[OR].control0 ) ) { wListSetIndex( (wList_p)drawDesc[OR].control0, drawData.benchOrient ); } else { drawData.benchOrient = 0; } segPtr->u.l.option = GetBenchData( VP2L(wListGetItemContext(( wList_p)drawDesc[BE].control0, drawData.benchChoice)), drawData.benchOrient ); break; case OR: segPtr->u.l.option = GetBenchData( VP2L(wListGetItemContext(( wList_p)drawDesc[BE].control0, drawData.benchChoice)), drawData.benchOrient ); break; case DS: segPtr->u.l.option = drawData.dimenSize; break; case TP:; UNREORIGIN(segPtr->u.t.pos, drawData.endPt[0], 0.0, xx->orig ); break; case PP: off.x = drawData.endPt[0].x - drawData.oldE0.x; off.y = drawData.endPt[0].y - drawData.oldE0.y; for (int i=0; iu.p.cnt; i++) { REORIGIN( pt, segPtr->u.p.pts[i].pt, 0.0, xx->orig ); pt.x += off.x; pt.y += off.y; if (i<5) { drawData.endPt[i] = pt; } UNREORIGIN( segPtr->u.p.pts[i].pt, pt, 0.0, xx->orig ); } break; case TA: segPtr->u.t.angle = NormalizeAngle( drawData.angle ); break; case TS: fontSize = (long)segPtr->u.t.fontSize; UpdateFontSizeList( &fontSize, (wList_p)drawDesc[TS].control0, drawData.fontSizeInx ); segPtr->u.t.fontSize = fontSize; break; case FL: if (segPtr->type == SEG_POLY && drawData.open) { segPtr->u.p.polyType = POLYLINE; drawData.filled = FALSE; drawDesc[FL].mode = DESC_RO|DESC_CHANGE; break; } if(drawData.filled) { if (segPtr->type == SEG_POLY) { segPtr->type = SEG_FILPOLY; drawData.open = FALSE; drawDesc[OP].mode = DESC_RO|DESC_CHANGE; } if (segPtr->type == SEG_CRVLIN) { segPtr->type = SEG_FILCRCL; drawData.length = 0.0; drawDesc[LN].mode = DESC_RO|DESC_CHANGE; } } else { if (segPtr->type == SEG_FILPOLY) { segPtr->type = SEG_POLY; drawData.open = FALSE; drawDesc[OP].mode = DESC_CHANGE; } if (segPtr->type == SEG_FILCRCL) { segPtr->type = SEG_CRVLIN; segPtr->u.c.a0 = 0.0; segPtr->u.c.a1 = 360.0; drawData.length = 2*M_PI*segPtr->u.c.radius; drawDesc[LN].mode = DESC_RO|DESC_CHANGE; } } break; case OP: if (drawData.filled || (segPtr->type != SEG_POLY)) { drawData.open = FALSE; drawDesc[OP].mode |= DESC_CHANGE; break; } if (drawData.open) { if (segPtr->type == SEG_POLY && segPtr->u.p.polyType == FREEFORM) { segPtr->u.p.polyType = POLYLINE; drawData.filled = FALSE; drawDesc[FL].mode = DESC_RO|DESC_CHANGE; } } else { if (segPtr->type == SEG_POLY && segPtr->u.p.polyType == POLYLINE) { segPtr->u.p.polyType = FREEFORM; drawData.filled = FALSE; drawDesc[FL].mode = DESC_CHANGE; } } break; case BX: segPtr->u.t.boxed = drawData.boxed; break; case TX: if ( wTextGetModified((wText_p)drawDesc[TX].control0 ) || inPlayback ) { int len = wTextGetSize((wText_p)drawDesc[TX].control0); // TODO - minor memory leak, but this allows Undo on text object. See BUG-527 // MyFree( segPtr->u.t.string ); if ( !descUndoStarted ) { UndoStart( _("Change Track"), "Change Track"); descUndoStarted = TRUE; } UndoModify( trk ); if (len>STR_HUGE_SIZE-8) { //Truncate string to max len = STR_HUGE_SIZE-8; ErrorMessage( MSG_TEXT_TOO_LONG ); } segPtr->u.t.string = (char *)MyMalloc(len+1); wTextGetText((wText_p)drawDesc[TX].control0, segPtr->u.t.string, len+1); segPtr->u.t.string[len] = '\0'; //Make sure of null term } break; case LY: SetTrkLayer( trk, drawData.layer); break; case LK: if (drawData.lock_origin) { drawDesc[RA].mode = 0; } else { drawDesc[RA].mode = DESC_RO; } drawData.rotate_angle = 0.0; drawDesc[RA].mode |= DESC_CHANGE; break; case LT: xx->lineType = drawData.lineType; break; default: CHECKMSG( FALSE, ( "bad op: %d", inx ) ); } drawData.oldE0 = drawData.endPt[0]; drawData.oldE1 = drawData.endPt[1]; drawData.oldAngle = drawData.rotate_angle; drawData.oldOrigin = drawData.origin; ComputeDrawBoundingBox( trk ); DrawNewTrack( trk ); TempRedraw(); // UpdateDraw } static void DescribeDraw( track_p trk, char * str, CSIZE_T len ) { struct extraDataDraw_t *xx = GET_EXTRA_DATA(trk, T_DRAW, extraDataDraw_t); coOrd pos = oldMarker; trkSeg_p segPtr; int inx; char * title = NULL; // char * polyType = NULL; DistanceSegs( xx->orig, xx->angle, xx->segCnt, xx->segs, &pos, &drawSegInx ); if ( drawSegInx==-1 ) { return; } segPtr = &xx->segs[drawSegInx]; for ( inx=0; inxcolor; drawData.layer = GetTrkLayer(trk); drawDesc[CO].mode = 0; drawData.lineWidth = segPtr->lineWidth; drawDesc[LW].mode = 0; drawDesc[LY].mode = DESC_NOREDRAW; drawDesc[BE].mode = drawDesc[OR].mode = drawDesc[LT].mode = drawDesc[DS].mode = DESC_IGNORE; drawData.pivot = DESC_PIVOT_MID; if ((xx->orig.x == 0.0) && (xx->orig.y == 0.0)) { drawData.lock_origin = FALSE; } else { drawData.lock_origin = TRUE; } drawData.rotate_angle = 0.0; drawDesc[LK].mode = 0; switch ( segPtr->type ) { case SEG_STRLIN: case SEG_DIMLIN: case SEG_BENCH: case SEG_TBLEDGE: REORIGIN( drawData.endPt[0], segPtr->u.l.pos[0], xx->angle, xx->orig ); REORIGIN( drawData.endPt[1], segPtr->u.l.pos[1], xx->angle, xx->orig ); drawData.length = FindDistance( drawData.endPt[0], drawData.endPt[1] ); drawData.angle = FindAngle( drawData.endPt[0], drawData.endPt[1] ); drawData.origin = xx->orig; //Remove input Angle (if any) UNREORIGIN(segPtr->u.l.pos[0], drawData.endPt[0], 0.0, xx->orig); UNREORIGIN(segPtr->u.l.pos[1], drawData.endPt[1], 0.0, xx->orig); xx->angle = 0.0; drawDesc[LN].mode = drawDesc[LA].mode = drawDesc[PV].mode = 0; drawDesc[E0].mode = drawDesc[OI].mode = 0; drawDesc[E1].mode = 0; drawDesc[RA].mode = 0; if (!drawData.lock_origin) { drawDesc[RA].mode = DESC_RO; } else { drawDesc[RA].mode = 0; } switch (segPtr->type) { case SEG_STRLIN: title = _("Straight Line"); drawDesc[LT].mode = 0; drawData.lineType = (wIndex_t)xx->lineType; break; case SEG_DIMLIN: title = _("Dimension Line"); drawDesc[CO].mode = drawDesc[LW].mode = drawDesc[LK].mode = drawDesc[OI].mode = drawDesc[RA].mode = DESC_IGNORE; drawData.dimenSize = (wIndex_t)segPtr->u.l.option; drawDesc[DS].mode = 0; break; case SEG_BENCH: title = _("Lumber"); drawDesc[LK].mode = drawDesc[OI].mode = drawDesc[RA].mode = drawDesc[LW].mode = DESC_IGNORE; drawDesc[BE].mode = drawDesc[OR].mode = 0; drawData.benchChoice = GetBenchListIndex( segPtr->u.l.option ); drawData.benchOrient = (wIndex_t)(segPtr->u.l.option&0xFF); break; case SEG_TBLEDGE: title = _("Table Edge"); drawDesc[LK].mode = drawDesc[OI].mode = drawDesc[RA].mode = DESC_IGNORE; drawDesc[CO].mode = DESC_IGNORE; drawDesc[LW].mode = DESC_IGNORE; break; } break; case SEG_CRVLIN: REORIGIN( drawData.center, segPtr->u.c.center, xx->angle, xx->orig ); //Remove input Angle (if any) UNREORIGIN(segPtr->u.c.center, drawData.center, 0.0, xx->orig); xx->angle = 0.0; drawData.radius = fabs(segPtr->u.c.radius); drawData.origin = xx->orig; drawDesc[OI].mode = 0; drawDesc[CE].mode = drawDesc[RD].mode = 0; if (!drawData.lock_origin) { drawDesc[RA].mode = DESC_RO; } else { drawDesc[RA].mode = 0; } drawDesc[LT].mode = 0; drawData.lineType = (wIndex_t)xx->lineType; if ( segPtr->u.c.a1 >= 360.0 ) { title = _("Circle"); drawDesc[FL].mode = 0; drawData.filled = FALSE; drawDesc[LN].mode = DESC_RO; drawData.length = 2*M_PI*segPtr->u.c.radius; } else { drawData.angle = segPtr->u.c.a1; drawData.angle0 = NormalizeAngle( segPtr->u.c.a0+xx->angle ); drawData.angle1 = NormalizeAngle( drawData.angle0+drawData.angle ); drawDesc[LN].mode = DESC_RO; drawData.length = 2*M_PI*segPtr->u.c.radius*segPtr->u.c.a1/360; drawDesc[AL].mode = drawDesc[A1].mode = drawDesc[A2].mode = 0; drawDesc[PV].mode = 0; title = _("Curved Line"); } break; case SEG_FILCRCL: REORIGIN( drawData.center, segPtr->u.c.center, xx->angle, xx->orig ); //Remove input Angle (if any) UNREORIGIN(segPtr->u.c.center, drawData.center, 0.0, xx->orig); xx->angle = 0.0; drawData.radius = fabs(segPtr->u.c.radius); drawData.origin = xx->orig; drawDesc[OI].mode = drawDesc[FL].mode = 0; if (!drawData.lock_origin) { drawDesc[RA].mode = DESC_RO; } else { drawDesc[RA].mode = 0; } drawData.filled = TRUE; drawData.length = 0.0; drawDesc[LN].mode = DESC_RO; drawDesc[CE].mode = drawDesc[RD].mode = 0; drawDesc[PV].mode = 0; drawDesc[OI].mode = 0; drawDesc[LW].mode = DESC_IGNORE; title = _("Filled Circle"); break; case SEG_POLY: case SEG_FILPOLY:; BOOL_T filled = FALSE; if (segPtr->type == SEG_FILPOLY) { filled = TRUE; } REORIGIN(drawData.endPt[0],segPtr->u.p.pts[0].pt, xx->angle, xx->orig); //Remove input Angle (if any) for (int i=0; iu.p.cnt; i++) { coOrd pt; REORIGIN(pt,segPtr->u.p.pts[i].pt, xx->angle, xx->orig); UNREORIGIN(segPtr->u.p.pts[i].pt, pt, 0.0, xx->orig); } xx->angle = 0.0; drawDesc[PP].mode = 0; drawData.pointCount = segPtr->u.p.cnt; drawDesc[VC].mode = DESC_RO; drawData.filled = filled; drawDesc[FL].mode = 0; drawData.angle = 0.0; if (!drawData.lock_origin) { drawDesc[RA].mode = DESC_RO; } else { drawDesc[RA].mode = 0; } drawData.origin = xx->orig; drawDesc[OI].mode = 0; drawData.open= FALSE; drawDesc[OP].mode = filled?DESC_RO:0; drawDesc[LT].mode = 0; drawData.lineType = (wIndex_t)xx->lineType; switch (segPtr->u.p.polyType) { case RECTANGLE: title = filled?_("Filled Rectangle"):_("Rectangle"); drawDesc[OP].mode = DESC_IGNORE; drawDesc[VC].mode = DESC_IGNORE; drawData.width = FindDistance(segPtr->u.p.pts[0].pt, segPtr->u.p.pts[1].pt); drawDesc[WT].mode = 0; drawData.height = FindDistance(segPtr->u.p.pts[0].pt, segPtr->u.p.pts[3].pt); drawDesc[HT].mode = 0; for(int i=0; i<4; i++) { REORIGIN( drawData.endPt[i], segPtr->u.p.pts[i].pt, xx->angle, xx->orig ); } drawDesc[E0].mode = DESC_IGNORE; drawData.origin = xx->orig; break; case POLYLINE: title = _("Polyline"); drawData.open=TRUE; drawData.filled= FALSE; drawDesc[FL].mode = DESC_RO; drawDesc[OP].mode = 0; break; default: title = filled?_("Filled Polygon"):_("Polygon"); } break; case SEG_TEXT: REORIGIN( drawData.endPt[0], segPtr->u.t.pos, xx->angle, xx->orig ); UNREORIGIN( segPtr->u.t.pos, drawData.endPt[0], 0.0, xx->orig ); xx->angle = 0.0; drawData.angle = segPtr->u.t.angle; //Text Angle drawData.origin = xx->orig; strncpy( drawData.text, segPtr->u.t.string, sizeof drawData.text ); drawData.text[sizeof drawData.text-1] ='\0'; drawData.boxed = segPtr->u.t.boxed; drawDesc[TP].mode = drawDesc[TS].mode = drawDesc[TX].mode = drawDesc[TA].mode = drawDesc[LK].mode = drawDesc[OI].mode = drawDesc[BX].mode = 0; if (!drawData.lock_origin) { drawDesc[RA].mode = DESC_RO; } else { drawDesc[RA].mode = 0; } drawDesc[E0].mode = DESC_IGNORE; drawDesc[CO].mode = 0; /*Allow Text color setting*/ drawDesc[LW].mode = DESC_IGNORE; title = _("Text"); break; default: ; } snprintf( str, len, _("%s(%d) Layer=%d"), title, GetTrkIndex(trk), GetTrkLayer(trk)+1 ); if (!inDescribeCmd) { return; } drawData.oldE0 = drawData.endPt[0]; drawData.oldE1 = drawData.endPt[1]; drawData.oldAngle = drawData.rotate_angle; drawData.oldOrigin = drawData.origin; DoDescribe( title, trk, drawDesc, UpdateDraw ); if ( segPtr->type==SEG_BENCH && drawDesc[BE].control0!=NULL && drawDesc[OR].control0!=NULL) { BenchLoadLists( (wList_p)drawDesc[BE].control0, (wList_p)drawDesc[OR].control0 ); wListSetIndex( (wList_p)drawDesc[BE].control0, drawData.benchChoice ); BenchUpdateOrientationList( VP2L(wListGetItemContext((wList_p) drawDesc[BE].control0, drawData.benchChoice)), (wList_p)drawDesc[OR].control0 ); wListSetIndex( (wList_p)drawDesc[OR].control0, drawData.benchOrient ); } if ( (segPtr->type==SEG_STRLIN || segPtr->type==SEG_CRVLIN || segPtr->type==SEG_POLY) && drawDesc[LT].control0!=NULL) { wListClear( (wList_p)drawDesc[LT].control0 ); wListAddValue( (wList_p)drawDesc[LT].control0, _("Solid"), NULL, I2VP(0 )); wListAddValue( (wList_p)drawDesc[LT].control0, _("Dash"), NULL, I2VP(1 )); wListAddValue( (wList_p)drawDesc[LT].control0, _("Dot"), NULL, I2VP(2 )); wListAddValue( (wList_p)drawDesc[LT].control0, _("DashDot"), NULL, I2VP(3 )); wListAddValue( (wList_p)drawDesc[LT].control0, _("DashDotDot"), NULL, I2VP(4 )); wListAddValue( (wList_p)drawDesc[LT].control0, _("CenterDot"), NULL, I2VP(5 )); wListAddValue( (wList_p)drawDesc[LT].control0, _("PhantomDot"), NULL, I2VP(6 )); wListSetIndex( (wList_p)drawDesc[LT].control0, drawData.lineType ); } if ( segPtr->type==SEG_DIMLIN && drawDesc[DS].control0!=NULL ) { wListClear( (wList_p)drawDesc[DS].control0 ); wListAddValue( (wList_p)drawDesc[DS].control0, _("Tiny"), NULL, I2VP(0 )); wListAddValue( (wList_p)drawDesc[DS].control0, _("Small"), NULL, I2VP(1 )); wListAddValue( (wList_p)drawDesc[DS].control0, _("Medium"), NULL, I2VP(2 )); wListAddValue( (wList_p)drawDesc[DS].control0, _("Large"), NULL, I2VP(3 )); wListSetIndex( (wList_p)drawDesc[DS].control0, drawData.dimenSize ); } if ( segPtr->type==SEG_TEXT && drawDesc[TS].control0!=NULL ) { LoadFontSizeList( (wList_p)drawDesc[TS].control0, (long)segPtr->u.t.fontSize ); } } static void DrawDraw( track_p t, drawCmd_p d, wDrawColor color ) { struct extraDataDraw_t * xx = GET_EXTRA_DATA(t, T_DRAW, extraDataDraw_t); unsigned long NotSolid = ~(DC_NOTSOLIDLINE); d->options &= NotSolid; if (xx->lineType == DRAWLINESOLID) {} else if (xx->lineType == DRAWLINEDASH) { d->options |= DC_DASH; } else if (xx->lineType == DRAWLINEDOT) { d->options |= DC_DOT; } else if (xx->lineType == DRAWLINEDASHDOT) { d->options |= DC_DASHDOT; } else if (xx->lineType == DRAWLINEDASHDOTDOT) { d->options |= DC_DASHDOTDOT; } else if (xx->lineType == DRAWLINECENTER) { d->options |= DC_CENTER; } else if (xx->lineType == DRAWLINEPHANTOM) { d->options |= DC_PHANTOM; } DrawSegs( d, xx->orig, xx->angle, xx->segs, xx->segCnt, 0.0, color ); d->options = d->options&~(DC_NOTSOLIDLINE); } static void DeleteDraw( track_p t ) { /* Get rid of points if specified */ struct extraDataDraw_t * xx = GET_EXTRA_DATA(t, T_DRAW, extraDataDraw_t); if (xx->segs[0].type == SEG_POLY || xx->segs[0].type == SEG_FILPOLY) { MyFree(xx->segs[0].u.p.pts); xx->segs[0].u.p.pts = NULL; } } static BOOL_T WriteDraw( track_p t, FILE * f ) { struct extraDataDraw_t * xx = GET_EXTRA_DATA(t, T_DRAW, extraDataDraw_t); BOOL_T rc = TRUE; rc &= fprintf(f, "DRAW %d %d %d 0 0 %0.6f %0.6f 0 %0.6f\n", GetTrkIndex(t), GetTrkLayer(t), xx->lineType, xx->orig.x, xx->orig.y, xx->angle )>0; rc &= WriteSegs( f, xx->segCnt, xx->segs ); return rc; } static BOOL_T ReadDraw( char * header ) { track_p trk; wIndex_t index; coOrd orig; DIST_T elev; ANGLE_T angle; wIndex_t layer; int lineType; struct extraDataDraw_t * xx; if ( !GetArgs( header+5, paramVersion<3?"dXXpYf":paramVersion<9?"dLX00pYf":"dLd00pff", &index, &layer, &lineType, &orig, &elev, &angle ) ) { return FALSE; } if ( !ReadSegs() ) { return FALSE; } if (tempSegs_da.cnt == 1) { trk = MakeDrawFromSeg1( index, orig, angle, &tempSegs(0) ); xx = GET_EXTRA_DATA(trk, T_DRAW, extraDataDraw_t); xx->lineType = lineType; SetTrkLayer( trk, layer ); } else { trk = NewTrack( index, T_DRAW, 0, sizeof *xx + (tempSegs_da.cnt-1) * sizeof *(trkSeg_p)0 ); SetTrkLayer( trk, layer ); xx = GET_EXTRA_DATA(trk, T_DRAW, extraDataDraw_t); xx->orig = orig; xx->angle = angle; xx->segCnt = tempSegs_da.cnt; xx->lineType = lineType; memcpy( xx->segs, &tempSegs(0), tempSegs_da.cnt * sizeof *(trkSeg_p)0 ); ComputeDrawBoundingBox( trk ); } return TRUE; } static void MoveDraw( track_p trk, coOrd off ) { struct extraDataDraw_t * xx = GET_EXTRA_DATA(trk, T_DRAW, extraDataDraw_t); trkSeg_p segPtr = &xx->segs[0]; if (xx->orig.x == 0.0 && xx->orig.y == 0.0) { //No origin set switch(segPtr->type) { case SEG_POLY: case SEG_FILPOLY: for (int i=0; iu.p.cnt; i++) { REORIGIN( segPtr->u.p.pts[i].pt, segPtr->u.p.pts[i].pt, 0.0, off ); } break; case SEG_STRLIN: case SEG_DIMLIN: case SEG_BENCH: case SEG_TBLEDGE: for (int i=0; i<2; i++) { REORIGIN( segPtr->u.l.pos[i], segPtr->u.l.pos[i], 0.0, off ); } break; case SEG_CRVLIN: case SEG_FILCRCL: REORIGIN( segPtr->u.c.center, segPtr->u.c.center, 0.0, off ); break; case SEG_TEXT: REORIGIN( segPtr->u.t.pos, segPtr->u.t.pos, 0.0, off ); break; default:; } } else { xx->orig.x += off.x; xx->orig.y += off.y; } ComputeDrawBoundingBox( trk ); } static void RotateDraw( track_p trk, coOrd orig, ANGLE_T angle ) { struct extraDataDraw_t * xx = GET_EXTRA_DATA(trk, T_DRAW, extraDataDraw_t); trkSeg_p segPtr = &xx->segs[0]; if (xx->orig.x == 0.0 && xx->orig.y == 0.0) { //No origin set switch(segPtr->type) { case SEG_POLY: case SEG_FILPOLY: for (int i=0; iu.p.cnt; i++) { Rotate(&segPtr->u.p.pts[i].pt, orig, angle ); } break; case SEG_STRLIN: case SEG_DIMLIN: case SEG_BENCH: case SEG_TBLEDGE: for (int i=0; i<2; i++) { Rotate( &segPtr->u.l.pos[i], orig, angle ); } break; case SEG_CRVLIN: case SEG_FILCRCL: Rotate( &segPtr->u.c.center, orig, angle ); segPtr->u.c.a0 = NormalizeAngle(segPtr->u.c.a0 + angle); break; case SEG_TEXT: Rotate( &segPtr->u.t.pos, orig, angle ); segPtr->u.t.angle = NormalizeAngle(segPtr->u.t.angle+angle+xx->angle); break; default:; } } else { Rotate( &xx->orig, orig, angle ); xx->angle = NormalizeAngle( xx->angle + angle ); } ComputeDrawBoundingBox( trk ); } static void RescaleDraw( track_p trk, FLOAT_T ratio ) { struct extraDataDraw_t * xx = GET_EXTRA_DATA(trk, T_DRAW, extraDataDraw_t); xx->orig.x *= ratio; xx->orig.y *= ratio; RescaleSegs( xx->segCnt, xx->segs, ratio, ratio, ratio ); } #if 0 static void DoConvertFill(void) { } #endif static drawModContext_t drawModCmdContext = { InfoMessage, DoRedraw, &mainD }; static BOOL_T infoSubst = FALSE; static paramFloatRange_t r100_100 = { -100.0, 100.0, 50 }; //Allow negative numbers static paramFloatRange_t r0d001_10000 = { 0.001, 10000 }; //static paramFloatRange_t r1_10000 = { 1, 10000 }; static paramFloatRange_t r0_10000 = { 0, 10000 }; //static paramFloatRange_t r10000_10000 = {-10000, 10000}; static paramFloatRange_t r360_360 = { -360, 360, 80 }; static paramFloatRange_t r0_360 = { 0, 360, 80 }; static paramData_t drawModPLs[] = { #define drawModLengthPD (drawModPLs[0]) { PD_FLOAT, &drawModCmdContext.length, "Length", PDO_NOPREF|PDO_DIM|PDO_NORECORD|BO_ENTER, &r0_10000, N_("Length") }, #define drawModAnglePD (drawModPLs[1]) { PD_FLOAT, &drawModCmdContext.abs_angle, "Angle", PDO_NOPREF|PDO_NORECORD|BO_ENTER, &r360_360, N_("Angle") }, #define drawModRelAnglePD (drawModPLs[2]) #define drawModRelAngle 2 { PD_FLOAT, &drawModCmdContext.rel_angle, "RelAngle", PDO_NOPREF|PDO_NORECORD|BO_ENTER, &r360_360, N_("Relative Angle") }, #define drawModWidthPD (drawModPLs[3]) { PD_FLOAT, &drawModCmdContext.width, "Width", PDO_NOPREF|PDO_DIM|PDO_NORECORD|BO_ENTER, &r0_10000, N_("Width") }, #define drawModHeightPD (drawModPLs[4]) { PD_FLOAT, &drawModCmdContext.height, "Height", PDO_NOPREF|PDO_DIM|PDO_NORECORD|BO_ENTER, &r0_10000, N_("Height") }, #define drawModRadiusPD (drawModPLs[5]) #define drawModRadius 5 { PD_FLOAT, &drawModCmdContext.radius, "Radius", PDO_NOPREF|PDO_DIM|PDO_NORECORD|BO_ENTER, &r0d001_10000, N_("Radius") }, #define drawModArcAnglePD (drawModPLs[6]) { PD_FLOAT, &drawModCmdContext.arc_angle, "ArcAngle", PDO_NOPREF|PDO_NORECORD|BO_ENTER, &r360_360, N_("Arc Angle") }, #define drawModRotAnglePD (drawModPLs[7) { PD_FLOAT, &drawModCmdContext.rot_angle, "RotAngle", PDO_NOPREF|PDO_NORECORD|BO_ENTER, &r0_360, N_("Rotate Angle") }, #define drawModRotCenterXPD (drawModPLs[8]) #define drawModRotCenterInx 8 { PD_FLOAT, &drawModCmdContext.rot_center.x, "RotCenterx", PDO_NOPREF|PDO_NORECORD|BO_ENTER, &r0_10000, N_("Rot Center X,Y") }, #define drawModRotCenterYPD (drawModPLs[9]) { PD_FLOAT, &drawModCmdContext.rot_center.y, "RotCentery", PDO_NOPREF|PDO_NORECORD|BO_ENTER, &r0_10000, NULL }, }; static paramGroup_t drawModPG = { "drawMod", 0, drawModPLs, COUNT( drawModPLs ) }; static void DrawModDlgUpdate( paramGroup_p pg, int inx, void * valueP ) { DrawGeomModify(C_UPDATE,zero,&drawModCmdContext); ParamLoadControl(&drawModPG, drawModRotCenterInx-1); //Make sure the angle is updated in case center moved ParamLoadControl(&drawModPG,drawModRadius); // Make sure Radius updated ParamLoadControl(&drawModPG,drawModRelAngle); //Relative Angle as well MainRedraw(); } static STATUS_T ModifyDraw( track_p trk, wAction_t action, coOrd pos ) { struct extraDataDraw_t * xx = GET_EXTRA_DATA(trk, T_DRAW, extraDataDraw_t); STATUS_T rc = C_CONTINUE; wControl_p controls[5]; //Always needs a NULL last entry char * labels[4]; drawModCmdContext.trk = trk; drawModCmdContext.orig = xx->orig; drawModCmdContext.angle = xx->angle; drawModCmdContext.segCnt = xx->segCnt; drawModCmdContext.segPtr = xx->segs; drawModCmdContext.selected = GetTrkSelected(trk); switch(action&0xFF) { //Remove Text value case C_START: for (int inx = 0; inx < COUNT(drawModPLs); ++inx ) { drawModPLs[inx].option |= PDO_DLGIGNORE; } drawModCmdContext.type = xx->segs[0].type; switch(drawModCmdContext.type) { case SEG_POLY: case SEG_FILPOLY: drawModCmdContext.filled = (drawModCmdContext.type==SEG_FILPOLY)?TRUE:FALSE; drawModCmdContext.subtype = xx->segs[0].u.p.polyType; drawModCmdContext.open = (drawModCmdContext.subtype==POLYLINE)?TRUE:FALSE; break; case SEG_TEXT: InfoMessage("Text can only be modified in Describe Mode"); wBeep(); return C_ERROR; default: break; } drawModCmdContext.rot_moved = FALSE; drawModCmdContext.rotate_state = FALSE; infoSubst = FALSE; rc = DrawGeomModify( C_START, pos, &drawModCmdContext ); break; case C_DOWN: rc = DrawGeomModify( C_DOWN, pos, &drawModCmdContext ); if ( infoSubst ) { InfoSubstituteControls( NULL, NULL ); infoSubst = FALSE; } break; case C_LDOUBLE: rc = DrawGeomModify( C_LDOUBLE, pos, &drawModCmdContext ); if ( infoSubst ) { InfoSubstituteControls( NULL, NULL ); infoSubst = FALSE; } break; case wActionMove: rc = DrawGeomModify( action, pos, &drawModCmdContext ); break; case C_REDRAW: rc = DrawGeomModify( action, pos, &drawModCmdContext ); break; case C_MOVE: ignoredDraw = trk; rc = DrawGeomModify( action, pos, &drawModCmdContext ); ignoredDraw = NULL; break; case C_UP: ignoredDraw = trk; rc = DrawGeomModify( action, pos, &drawModCmdContext ); ignoredDraw = NULL; ComputeDrawBoundingBox( trk ); if (drawModCmdContext.state == MOD_AFTER_PT) { switch(drawModCmdContext.type) { case SEG_POLY: case SEG_FILPOLY: if (xx->segs[0].u.p.polyType != RECTANGLE) { if (drawModCmdContext.prev_inx >= 0) { controls[0] = drawModLengthPD.control; controls[1] = drawModRelAnglePD.control; drawModLengthPD.option &= ~PDO_DLGIGNORE; drawModRelAnglePD.option &= ~PDO_DLGIGNORE; controls[2] = NULL; labels[0] = N_("Seg Lth"); labels[1] = N_("Rel Ang"); ParamLoadControls( &drawModPG ); InfoSubstituteControls( controls, labels ); drawModLengthPD.option &= ~PDO_NORECORD; drawModRelAnglePD.option &= ~PDO_NORECORD; infoSubst = TRUE; } } else { controls[0] = drawModWidthPD.control; controls[1] = drawModHeightPD.control; drawModWidthPD.option &= ~PDO_DLGIGNORE; drawModHeightPD.option &= ~PDO_DLGIGNORE; controls[2] = NULL; labels[0] = N_("Width"); labels[1] = N_("Height"); ParamLoadControls( &drawModPG ); InfoSubstituteControls( controls, labels ); drawModWidthPD.option &= ~PDO_NORECORD; drawModHeightPD.option &= ~PDO_NORECORD; infoSubst = TRUE; } break; case SEG_STRLIN: case SEG_BENCH: case SEG_DIMLIN: case SEG_TBLEDGE: controls[0] = drawModLengthPD.control; controls[1] = drawModAnglePD.control; drawModLengthPD.option &= ~PDO_DLGIGNORE; drawModAnglePD.option &= ~PDO_DLGIGNORE; controls[2] = NULL; labels[0] = N_("Length"); labels[1] = N_("Angle"); ParamLoadControls( &drawModPG ); InfoSubstituteControls( controls, labels ); drawModLengthPD.option &= ~PDO_NORECORD; drawModAnglePD.option &= ~PDO_NORECORD; infoSubst = TRUE; break; case SEG_CRVLIN: case SEG_FILCRCL: controls[0] = drawModRadiusPD.control; drawModRadiusPD.option &= ~PDO_DLGIGNORE; controls[1] = NULL; labels[0] = N_("Radius"); if ((drawModCmdContext.type == SEG_CRVLIN) && xx->segs[0].u.c.a1>0.0 && xx->segs[0].u.c.a1 <360.0) { controls[1] = drawModArcAnglePD.control; controls[2] = NULL; labels[1] = N_("Arc Angle"); } ParamLoadControls( &drawModPG ); InfoSubstituteControls( controls, labels ); drawModArcAnglePD.option &= ~PDO_NORECORD; if (drawModCmdContext.type == SEG_CRVLIN) { drawModArcAnglePD.option &= ~PDO_NORECORD; } infoSubst = TRUE; break; default: InfoSubstituteControls( NULL, NULL ); infoSubst = FALSE; break; } } else { InfoSubstituteControls( NULL, NULL ); infoSubst = FALSE; } break; case C_CMDMENU: menuPos = pos; wMenuPopupShow( drawModDelMI ); wMenuPushEnable( drawModPointsMode,drawModCmdContext.rotate_state); wMenuPushEnable( drawModriginMode,!drawModCmdContext.rotate_state); wMenuPushEnable( drawModRound, FALSE); wMenuPushEnable( drawModVertex, FALSE); wMenuPushEnable( drawModSmooth, FALSE); wMenuPushEnable( drawModDel, FALSE); wMenuPushEnable( drawModFill, FALSE); wMenuPushEnable( drawModEmpty, FALSE); wMenuPushEnable( drawModClose, FALSE); wMenuPushEnable( drawModOpen, FALSE); wMenuPushEnable( drawModSolid, TRUE); wMenuPushEnable( drawModDot, TRUE); wMenuPushEnable( drawModDash, TRUE); wMenuPushEnable( drawModDashDot, TRUE); wMenuPushEnable( drawModDashDotDot, TRUE); wMenuPushEnable( drawModCenterDot, TRUE); wMenuPushEnable( drawModPhantom, TRUE); if (!drawModCmdContext.rotate_state && (drawModCmdContext.type == SEG_POLY || drawModCmdContext.type == SEG_FILPOLY)) { wMenuPushEnable( drawModFill, (!drawModCmdContext.open) && (!drawModCmdContext.filled)); wMenuPushEnable( drawModEmpty, (!drawModCmdContext.open) && (drawModCmdContext.filled)); if (drawModCmdContext.subtype != RECTANGLE) { wMenuPushEnable( drawModDel,drawModCmdContext.prev_inx>=0); if ((!drawModCmdContext.open && drawModCmdContext.prev_inx>=0) || ((drawModCmdContext.prev_inx>0) && (drawModCmdContext.prev_inx=0)); wMenuPushEnable( drawModCenter,drawModCmdContext.rotate_state); break; case wActionExtKey: case C_TEXT: ignoredDraw = trk ; rc = DrawGeomModify( action, pos, &drawModCmdContext ); if ( infoSubst ) { InfoSubstituteControls( NULL, NULL ); infoSubst = FALSE; } ignoredDraw = NULL; if (rc == C_CONTINUE) { break; } /* no break*/ case C_FINISH: ignoredDraw = trk; rc = DrawGeomModify( C_FINISH, pos, &drawModCmdContext ); xx->angle = drawModCmdContext.angle; xx->orig = drawModCmdContext.orig; ignoredDraw = NULL; DrawNewTrack( trk ); ComputeDrawBoundingBox( trk ); if ( infoSubst ) { InfoSubstituteControls( NULL, NULL ); infoSubst = FALSE; } break; case C_CONFIRM: case C_OK: rc = DrawGeomModify( action, pos, &drawModCmdContext ); ComputeDrawBoundingBox( trk ); if ( infoSubst ) { InfoSubstituteControls( NULL, NULL ); infoSubst = FALSE; } break; case C_CANCEL: rc = DrawGeomModify( action, pos, &drawModCmdContext ); drawModCmdContext.state = MOD_NONE; if ( infoSubst ) { InfoSubstituteControls( NULL, NULL ); infoSubst = FALSE; } break; default: break; } return rc; } static void UngroupDraw( track_p trk ) { struct extraDataDraw_t * xx = GET_EXTRA_DATA(trk, T_DRAW, extraDataDraw_t); int inx; if ( xx->segCnt <= 1 ) { return; } DeleteTrack( trk, FALSE ); for ( inx=0; inxsegCnt; inx++ ) { trk = MakeDrawFromSeg( xx->orig, xx->angle, &xx->segs[inx] ); if ( trk ) { SetTrkBits( trk, TB_SELECTED ); DrawNewTrack( trk ); } } } static ANGLE_T GetAngleDraw( track_p trk, coOrd pos, EPINX_T * ep0, EPINX_T * ep1 ) { struct extraDataDraw_t * xx = GET_EXTRA_DATA(trk, T_DRAW, extraDataDraw_t); ANGLE_T angle; pos.x -= xx->orig.x; pos.y -= xx->orig.y; Rotate( &pos, zero, -xx->angle ); angle = GetAngleSegs( xx->segCnt, xx->segs, &pos, NULL, NULL, NULL, NULL, NULL); if ( ep0 ) { *ep0 = -1; } if ( ep1 ) { *ep1 = -1; } return NormalizeAngle( angle + xx->angle ); } static BOOL_T EnumerateDraw( track_p trk ) { struct extraDataDraw_t * xx; int inx; trkSeg_p segPtr; if ( trk ) { xx = GET_EXTRA_DATA(trk, T_DRAW, extraDataDraw_t); if ( xx->segCnt < 1 ) { return FALSE; } BOOL_T content = FALSE; for ( inx=0; inxsegCnt; inx++ ) { segPtr = &xx->segs[inx]; if ( segPtr->type == SEG_BENCH ) { CountBench( segPtr->u.l.option, FindDistance( segPtr->u.l.pos[0], segPtr->u.l.pos[1] ) ); content = TRUE; } } return content; } else { TotalBench(); } return TRUE; } static void FlipDraw( track_p trk, coOrd orig, ANGLE_T angle ) { struct extraDataDraw_t * xx = GET_EXTRA_DATA(trk, T_DRAW, extraDataDraw_t); trkSeg_p segPtr = &xx->segs[0]; BOOL_T reorigin = FALSE; if (xx->orig.x == 0.0 && xx->orig.y == 0.0) { reorigin = TRUE; } FlipPoint( &xx->orig, orig, angle ); xx->angle = NormalizeAngle( 2*angle - xx->angle + 180.0 ); FlipSegs( xx->segCnt, xx->segs, zero, angle ); if (reorigin) { switch(segPtr->type) { case SEG_POLY: case SEG_FILPOLY: for (int i=0; iu.p.cnt; i++) { REORIGIN( segPtr->u.p.pts[i].pt, segPtr->u.p.pts[i].pt, xx->angle, xx->orig); } break; case SEG_STRLIN: case SEG_DIMLIN: case SEG_BENCH: case SEG_TBLEDGE: for (int i=0; i<2; i++) { REORIGIN( segPtr->u.l.pos[i], segPtr->u.l.pos[i], xx->angle, xx->orig); } break; case SEG_CRVLIN: case SEG_FILCRCL: REORIGIN( segPtr->u.c.center, segPtr->u.c.center, xx->angle, xx->orig); segPtr->u.c.a0 = NormalizeAngle(segPtr->u.c.a0 + xx->angle); break; case SEG_TEXT: REORIGIN( segPtr->u.t.pos, segPtr->u.t.pos, xx->angle, xx->orig ); break; default:; } xx->orig.x = 0.0, xx->orig.y = 0.0, xx->angle = 0.0; } ComputeDrawBoundingBox( trk ); } static BOOL_T StoreDraw( track_p trk, void **data, long * len) { struct extraDataDraw_t * xx = GET_EXTRA_DATA(trk, T_DRAW, extraDataDraw_t); if (xx->segs[0].type == SEG_POLY || xx->segs[0].type == SEG_FILPOLY) { *data = xx->segs[0].u.p.pts; *len = xx->segs[0].u.p.cnt* sizeof (pts_t); return TRUE; } return FALSE; } static BOOL_T ReplayDraw( track_p trk, void * data, long len) { struct extraDataDraw_t * xx = GET_EXTRA_DATA(trk, T_DRAW, extraDataDraw_t); if (xx->segs[0].type == SEG_POLY || xx->segs[0].type == SEG_FILPOLY) { xx->segs[0].u.p.pts = MyMalloc(len); memcpy(xx->segs[0].u.p.pts,data,len); return TRUE; } return FALSE; } static BOOL_T QueryDraw( track_p trk, int query ) { struct extraDataDraw_t * xx = GET_EXTRA_DATA(trk, T_DRAW, extraDataDraw_t); switch(query) { case Q_IS_DRAW: return TRUE; case Q_IS_POLY: if ((xx->segs[0].type == SEG_POLY) || (xx->segs[0].type == SEG_FILPOLY) ) { return TRUE; } else { return FALSE; } case Q_IS_TEXT: if (xx->segs[0].type== SEG_TEXT) { return TRUE; } else { return FALSE; } case Q_GET_NODES: return TRUE; case Q_CAN_PARALLEL: case Q_MODIFY_CAN_SPLIT: if ((xx->segs[0].type == SEG_STRLIN) || (xx->segs[0].type == SEG_CRVLIN) || (xx->segs[0].type == SEG_BEZLIN) || (xx->segs[0].type == SEG_FILCRCL) || (xx->segs[0].type == SEG_FILPOLY) || (xx->segs[0].type == SEG_POLY) || (xx->segs[0].type == SEG_BENCH) || (xx->segs[0].type == SEG_TBLEDGE) ) { return TRUE; } else { return FALSE; } default: return FALSE; } } static wBool_t CompareDraw( track_cp trk1, track_cp trk2 ) { struct extraDataDraw_t *xx1 = GET_EXTRA_DATA( trk1, T_DRAW, extraDataDraw_t ); struct extraDataDraw_t *xx2 = GET_EXTRA_DATA( trk2, T_DRAW, extraDataDraw_t ); char * cp = message + strlen(message); REGRESS_CHECK_POS( "Orig", xx1, xx2, orig ) REGRESS_CHECK_ANGLE( "Angle", xx1, xx2, angle ) REGRESS_CHECK_INT( "LineType", xx1, xx2, lineType ) return CompareSegs( xx1->segs, xx1->segCnt, xx2->segs, xx2->segCnt ); } static BOOL_T GetParamsDraw( int inx, track_p trk, coOrd pos, trackParams_t * params ) { struct extraDataDraw_t * xx = GET_EXTRA_DATA(trk, T_DRAW, extraDataDraw_t); if (inx != PARAMS_NODES ) { return FALSE; } DYNARR_RESET(coOrd,params->nodes); BOOL_T back = FALSE; coOrd start,end; switch (xx->segs[0].type) { case SEG_POLY: if (xx->segs[0].u.p.polyType != POLYLINE) { return FALSE; } REORIGIN(start,xx->segs[0].u.p.pts[0].pt,xx->angle,xx->orig); REORIGIN(end,xx->segs[0].u.p.pts[xx->segs[0].u.p.cnt-1].pt,xx->angle,xx->orig); params->ep = 1; if (FindDistance(pos,start)>FindDistance(pos,end)) { back = TRUE; } for (int i=0; isegs[0].u.p.cnt; i++) { DYNARR_APPEND(coOrd,params->nodes,xx->segs[0].u.p.cnt); if (back) { DYNARR_LAST(coOrd,params->nodes) = xx->segs[0].u.p.pts[xx->segs[0].u.p.cnt-1 -i].pt; } else { DYNARR_LAST(coOrd,params->nodes) = xx->segs[0].u.p.pts[i].pt; } REORIGIN(DYNARR_LAST(coOrd,params->nodes),DYNARR_LAST(coOrd,params->nodes), xx->angle,xx->orig); } params->lineOrig = DYNARR_N(coOrd,params->nodes,0); params->lineEnd = DYNARR_LAST(coOrd,params->nodes); return TRUE; case SEG_STRLIN:; REORIGIN(start,xx->segs[0].u.l.pos[0],xx->angle,xx->orig); REORIGIN(end,xx->segs[0].u.l.pos[1],xx->angle,xx->orig); params->ep = 1; if (FindDistance(pos,start)>FindDistance(pos,end)) { back = TRUE; } for (int i=0; i<2; i++) { DYNARR_APPEND(coOrd,params->nodes,2); REORIGIN(DYNARR_LAST(coOrd,params->nodes),xx->segs[0].u.l.pos[back?1-i:i], xx->angle,xx->orig); } params->lineOrig = DYNARR_N(coOrd,params->nodes,0); params->lineEnd = DYNARR_LAST(coOrd,params->nodes); return TRUE; case SEG_CRVLIN:; Translate(&start,xx->segs[0].u.c.center,xx->segs[0].u.c.a0, fabs(xx->segs[0].u.c.radius)); REORIGIN(start,start,xx->angle,xx->orig); Translate(&end,xx->segs[0].u.c.center,xx->segs[0].u.c.a0+xx->segs[0].u.c.a1, fabs(xx->segs[0].u.c.radius)); REORIGIN(end,end,xx->angle,xx->orig); if (FindDistance(start,pos) > FindDistance(end,pos)) { back = TRUE; } if (fabs(xx->segs[0].u.c.radius) > 0.5) { double min_angle = R2D(2*acos(1.0-(0.1/fabs( xx->segs[0].u.c.radius)))); //Error max is 0.1" int number = (int) ceil(xx->segs[0].u.c.a1/min_angle); double arc_size = xx->segs[0].u.c.a1/number; for (int i=0; i<=number; i++) { DYNARR_APPEND(coOrd,params->nodes,number); if (back) { Translate(&DYNARR_LAST(coOrd,params->nodes),xx->segs[0].u.c.center, xx->segs[0].u.c.a0+xx->segs[0].u.c.a1-(i*arc_size), fabs(xx->segs[0].u.c.radius)); } else { Translate(&DYNARR_LAST(coOrd,params->nodes),xx->segs[0].u.c.center, xx->segs[0].u.c.a0+(i*arc_size),fabs(xx->segs[0].u.c.radius)); } REORIGIN(DYNARR_LAST(coOrd,params->nodes),DYNARR_LAST(coOrd,params->nodes), xx->angle,xx->orig); } } else { DYNARR_APPEND(coOrd,params->nodes,2); REORIGIN(DYNARR_LAST(coOrd,params->nodes),back?end:start,xx->angle,xx->orig); DYNARR_APPEND(coOrd,params->nodes,2); REORIGIN(DYNARR_LAST(coOrd,params->nodes),back?start:end,xx->angle,xx->orig); } params->lineOrig = DYNARR_N(coOrd,params->nodes,0); params->lineEnd = DYNARR_LAST(coOrd,params->nodes); params->ep = 1; return TRUE; case SEG_BEZLIN: REORIGIN(start,xx->segs[0].u.b.pos[0],xx->angle,xx->orig); REORIGIN(end,xx->segs[0].u.b.pos[3],xx->angle,xx->orig); if (FindDistance(pos,start) < FindDistance(pos,end)) { params->ep = 0; } else { params->ep = 1; } BOOL_T back = FALSE; coOrd curr_pos = params->bezierPoints[params->ep*3]; BOOL_T first = TRUE; for (int i = 0; isegs[0].bezSegs.cnt; i++) { trkSeg_p segPtr = &DYNARR_N(trkSeg_t,xx->segs[0].bezSegs, params->ep?xx->segs[0].bezSegs.cnt-1-i:i); if (segPtr->type == SEG_STRLIN) { back = FindDistance(segPtr->u.l.pos[0], curr_pos)>FindDistance(segPtr->u.l.pos[1],curr_pos); if (first) { first = FALSE; DYNARR_APPEND(coOrd,params->nodes,2); REORIGIN(DYNARR_LAST(coOrd,params->nodes),segPtr->u.l.pos[back],xx->angle, xx->orig); } DYNARR_APPEND(coOrd,params->nodes,2); REORIGIN(DYNARR_LAST(coOrd,params->nodes),segPtr->u.l.pos[1-back],xx->angle, xx->orig); curr_pos = DYNARR_LAST(coOrd,params->nodes); } else { coOrd start,end; Translate(&start,segPtr->u.c.center,segPtr->u.c.a0,segPtr->u.c.radius); Translate(&end,segPtr->u.c.center,segPtr->u.c.a0+segPtr->u.c.a1, segPtr->u.c.radius); back = FindDistance(start,curr_pos)>FindDistance(end,curr_pos); if (fabs(segPtr->u.c.radius) > 0.2) { double min_angle = 360*acos(1.0-(0.1/fabs( segPtr->u.c.radius)))/M_PI; //Error max is 0.1" int number = (int)ceil(segPtr->u.c.a1/min_angle); double arc_size = segPtr->u.c.a1/number; for (int j=1-first; jnodes,number-first); if (back == params->ep) { Translate(&DYNARR_LAST(coOrd,params->nodes),segPtr->u.c.center, segPtr->u.c.a0+(j*arc_size),fabs(segPtr->u.c.radius) ); } else { Translate(&DYNARR_LAST(coOrd,params->nodes),segPtr->u.c.center, segPtr->u.c.a0+segPtr->u.c.a1-(j*arc_size),fabs(segPtr->u.c.radius) ); } REORIGIN(DYNARR_LAST(coOrd,params->nodes),DYNARR_LAST(coOrd,params->nodes), xx->angle,xx->orig); } first = FALSE; } else { if (first) { first = FALSE; DYNARR_APPEND(coOrd,params->nodes,2); REORIGIN(DYNARR_LAST(coOrd,params->nodes),start,xx->angle,xx->orig); } DYNARR_APPEND(coOrd,params->nodes,1); REORIGIN(DYNARR_LAST(coOrd,params->nodes),end,xx->angle,xx->orig); first = FALSE; } curr_pos = DYNARR_LAST(coOrd,params->nodes); } } params->lineOrig = DYNARR_N(coOrd,params->nodes,0); params->lineEnd = DYNARR_LAST(coOrd,params->nodes); return TRUE; default: return FALSE; } return FALSE; } static BOOL_T SplitDraw( track_p trk, coOrd pos, EPINX_T ep, track_p *leftover, EPINX_T * ep0, EPINX_T * ep1 ) { struct extraDataDraw_t * xx = GET_EXTRA_DATA(trk, T_DRAW, extraDataDraw_t); coOrd p0,p1; DIST_T d; BOOL_T polyline_trim = FALSE, new_last = ep; DYNARR_SET(trkSeg_t, tempSegs_da, 1); tempSegs(0).type = -1; switch (xx->segs[0].type) { case SEG_STRLIN: case SEG_BENCH: case SEG_TBLEDGE: REORIGIN(p0,xx->segs[0].u.l.pos[0],xx->angle,xx->orig); REORIGIN(p1,xx->segs[0].u.l.pos[1],xx->angle,xx->orig); DYNARR_SET( trkSeg_t, tempSegs_da, 1 ); tempSegs(0).color = xx->segs[0].color; tempSegs(0).lineWidth = xx->segs[0].lineWidth; tempSegs(0).type = xx->segs[0].type; tempSegs(0).u.l.pos[0] = 1-ep?p0:pos; tempSegs(0).u.l.pos[1] = 1-ep?pos:p1; xx->segs[0].u.l.pos[0] = 1-ep?pos:p0; xx->segs[0].u.l.pos[1] = 1-ep?p1:pos; break; case SEG_CRVLIN: case SEG_FILCRCL: ; coOrd c; REORIGIN(c, xx->segs[0].u.c.center, xx->angle, xx->orig); coOrd c0,c1; if (xx->segs[0].type == SEG_FILCRCL || (xx->segs[0].type == SEG_CRVLIN && xx->segs[0].u.c.a1 >= 360.0)) { Translate(&c0,c,FindAngle(c,pos),xx->segs[0].u.c.radius); c1 = c0; xx->segs[0].type = SEG_CRVLIN; xx->segs[0].u.c.a0 = FindAngle(c,c0); xx->segs[0].u.c.a1 = 355.0; } else { Translate(&c0,c,xx->segs[0].u.c.a0+xx->angle,xx->segs[0].u.c.radius); Translate(&c1,c,xx->segs[0].u.c.a1+xx->segs[0].u.c.a0+xx->angle, xx->segs[0].u.c.radius); DYNARR_SET( trkSeg_t, tempSegs_da, 1 ); tempSegs(0).color = xx->segs[0].color; tempSegs(0).lineWidth = xx->segs[0].lineWidth; tempSegs(0).type = SEG_CRVLIN; tempSegs(0).u.c.center = c; tempSegs(0).u.c.radius = xx->segs[0].u.c.radius; if (ep) { tempSegs(0).u.c.a0 = FindAngle(c,c0); tempSegs(0).u.c.a1 = NormalizeAngle(FindAngle(c,pos)-tempSegs(0).u.c.a0); } else { tempSegs(0).u.c.a0 = FindAngle(c,pos); tempSegs(0).u.c.a1 = NormalizeAngle(FindAngle(c,c1)-tempSegs(0).u.c.a0); } xx->segs[0].u.c.center = c; if (ep) { xx->segs[0].u.c.a0 = FindAngle(c,pos); xx->segs[0].u.c.a1 = NormalizeAngle(FindAngle(c,c1)-xx->segs[0].u.c.a0); } else { xx->segs[0].u.c.a0 = FindAngle(c,c0); xx->segs[0].u.c.a1 = NormalizeAngle(FindAngle(c,pos)-xx->segs[0].u.c.a0); } } break; case SEG_POLY: case SEG_FILPOLY: d = DIST_INF; DIST_T dd; BOOL_T onPoint = FALSE; // BOOL_T closeSeg = FALSE; coOrd end; int polyInx = -1; for ( int inx=0; inxsegs[0].u.p.cnt-1; inx++ ) { p0 = pos; coOrd pl0,pl1; REORIGIN(pl0,xx->segs[0].u.p.pts[inx].pt,xx->angle,xx->orig); REORIGIN(pl1,xx->segs[0].u.p.pts[inx+1].pt,xx->angle,xx->orig); dd = LineDistance( &p0, pl0, pl1 ); if ( d > dd ) { d = dd; if (IsClose(FindDistance(pos,pl1))) { polyInx = inx; REORIGIN(pos,xx->segs[0].u.p.pts[inx].pt,xx->angle,xx->orig); onPoint = TRUE; break; } else if (IsClose(FindDistance(pos,pl1))) { polyInx = inx+1; REORIGIN(pos,xx->segs[0].u.p.pts[inx+1].pt,xx->angle,xx->orig); onPoint=TRUE; break; } else { if (!IsClose(d)) { continue; } polyInx = inx; pos = p0; break; } } } //If Closed, look at closing line if ( !onPoint && (xx->segs[0].u.p.polyType != POLYLINE)) { coOrd pl0,pl1; p0 = pos; REORIGIN(pl0,xx->segs[0].u.p.pts[xx->segs[0].u.p.cnt-1].pt,xx->angle,xx->orig); REORIGIN(pl1,xx->segs[0].u.p.pts[0].pt,xx->angle,xx->orig); dd = LineDistance( &p0, pl0, pl1 ); if (d > dd) { d = dd; if (IsClose(d)) { polyInx = xx->segs[0].u.p.cnt-1; // closeSeg=TRUE; pos = p0; } } } //If Closed, split into a PolyLine if (xx->segs[0].u.p.polyType != POLYLINE) { if (!IsClose(d)) { *leftover = NULL; return FALSE; } end = pos; REORIGIN(end,end,xx->angle,xx->orig); trkSeg_t temp; //Buffer for expanded array temp.u.p.cnt = xx->segs[0].u.p.cnt + 2 - onPoint; temp.u.p.pts = MyMalloc(temp.u.p.cnt*sizeof(pts_t)); int j = 0; temp.u.p.pts[j].pt = end; temp.u.p.pts[j].pt_type = wPolyLineStraight; j++; /* After split */ for (int i=polyInx+1; i<=xx->segs[0].u.p.cnt-1; i++,j++) { temp.u.p.pts[j] = xx->segs[0].u.p.pts[i]; REORIGIN(temp.u.p.pts[j].pt,temp.u.p.pts[j].pt,xx->angle,xx->orig); } /* Before split */ for (int i=0; i<=polyInx; i++,j++) { temp.u.p.pts[j] = xx->segs[0].u.p.pts[i]; REORIGIN(temp.u.p.pts[j].pt,temp.u.p.pts[j].pt,xx->angle,xx->orig); } if (!onPoint) { temp.u.p.pts[temp.u.p.cnt-1].pt = end; } temp.u.p.pts[temp.u.p.cnt-1].pt_type = wPolyLineStraight; //Swap Pts Array into existing track MyFree(xx->segs[0].u.p.pts); xx->segs[0].u.p.pts = temp.u.p.pts; xx->segs[0].u.p.cnt = temp.u.p.cnt; xx->segs[0].u.p.polyType = POLYLINE; break; } //Check if on an end-point -> reject if ((polyInx <= 0 || polyInx >= xx->segs[0].u.p.cnt-1) && onPoint ) { *leftover = NULL; return FALSE; } if (polyInx == 0 || (polyInx == 1 && onPoint )) { //Between First End and Next -> Trim end end = xx->segs[0].u.p.pts[0].pt; REORIGIN(end,end,xx->angle,xx->orig); if (onPoint) { for (int i=0; i< xx->segs[0].u.p.cnt-1; i++) { xx->segs[0].u.p.pts[i] = xx->segs[0].u.p.pts[i+1]; REORIGIN(xx->segs[0].u.p.pts[i].pt,xx->segs[0].u.p.pts[i].pt,xx->angle, xx->orig); } --xx->segs[0].u.p.cnt; } else { xx->segs[0].u.p.pts[0].pt = pos; for (int i=1; i< xx->segs[0].u.p.cnt; i++) { REORIGIN(xx->segs[0].u.p.pts[i].pt,xx->segs[0].u.p.pts[i].pt,xx->angle, xx->orig); } } DYNARR_SET( trkSeg_t, tempSegs_da, 1 ); tempSegs(0).color = xx->segs[0].color; tempSegs(0).lineWidth = xx->segs[0].lineWidth; tempSegs(0).type = SEG_STRLIN; tempSegs(0).u.l.pos[0] = pos; tempSegs(0).u.l.pos[1] = end; polyline_trim = TRUE; new_last = FALSE; } else if (polyInx == xx->segs[0].u.p.cnt-2) { //Between second last and last -> Trim the other end end = xx->segs[0].u.p.pts[xx->segs[0].u.p.cnt-1].pt; REORIGIN(end,end,xx->angle,xx->orig); if (onPoint) { --xx->segs[0].u.p.cnt; for (int i=0; isegs[0].u.p.cnt; i++) { REORIGIN(xx->segs[0].u.p.pts[i].pt,xx->segs[0].u.p.pts[i].pt,xx->angle, xx->orig); } } else { xx->segs[0].u.p.pts[xx->segs[0].u.p.cnt-1].pt = pos; for (int i=0; isegs[0].u.p.cnt; i++) { REORIGIN(xx->segs[0].u.p.pts[i].pt,xx->segs[0].u.p.pts[i].pt,xx->angle, xx->orig); } } DYNARR_SET( trkSeg_t, tempSegs_da, 1 ); tempSegs(0).color = xx->segs[0].color; tempSegs(0).lineWidth = xx->segs[0].lineWidth; tempSegs(0).type = SEG_STRLIN; tempSegs(0).u.l.pos[0] = end; tempSegs(0).u.l.pos[1] = pos; polyline_trim = TRUE; new_last = TRUE; } else { //Check that new line will have >=3 spots if not -> reject if (xx->segs[0].u.p.cnt >3) { DYNARR_SET( trkSeg_t, tempSegs_da, 1 ); tempSegs(0).color = xx->segs[0].color; tempSegs(0).lineWidth = xx->segs[0].lineWidth; tempSegs(0).type = SEG_POLY; tempSegs(0).u.p.polyType = POLYLINE; if (1-ep) { tempSegs(0).u.p.cnt = xx->segs[0].u.p.cnt - polyInx; } else { tempSegs(0).u.p.cnt = polyInx + 2 - onPoint; } tempSegs(0).u.p.pts = MyMalloc(tempSegs(0).u.p.cnt*sizeof(pts_t)); int j = 0; if (1-ep) { tempSegs(0).u.p.pts[0].pt=pos; tempSegs(0).u.p.pts[0].pt_type = wPolyLineStraight; j = 1; for (int i=polyInx+1; isegs[0].u.p.cnt; i++,j++) { tempSegs(0).u.p.pts[j] = xx->segs[0].u.p.pts[i]; REORIGIN(tempSegs(0).u.p.pts[j].pt,tempSegs(0).u.p.pts[j].pt,xx->angle, xx->orig); } } else { for (int i=0; i<=polyInx+1; i++,j++) { tempSegs(0).u.p.pts[j] = xx->segs[0].u.p.pts[i]; REORIGIN(tempSegs(0).u.p.pts[j].pt,tempSegs(0).u.p.pts[j].pt,xx->angle, xx->orig); } if (!onPoint) { tempSegs(0).u.p.pts[tempSegs(0).u.p.cnt-1].pt = pos; tempSegs(0).u.p.pts[tempSegs(0).u.p.cnt-1].pt_type = wPolyLineStraight; } } } else { *leftover = NULL; return FALSE; } polyline_trim = TRUE; new_last = 1-ep; int new_cnt, old_cnt = xx->segs[0].u.p.cnt; if (1-ep) { new_cnt = polyInx + 2 - onPoint; } else { new_cnt = xx->segs[0].u.p.cnt-polyInx; } pts_t * newpts = MyMalloc(new_cnt*sizeof(pts_t)); int j = 0; if (1-ep) { for (int i = 0; isegs[0].u.p.pts[i]; REORIGIN(newpts[j].pt,newpts[i].pt,xx->angle,xx->orig); } if (!onPoint) { newpts[new_cnt-1].pt = pos; newpts[new_cnt-1].pt_type = wPolyLineStraight; } } else { newpts[0].pt = pos; newpts[0].pt_type = wPolyLineStraight; j = 1; for (int i=polyInx+1; isegs[0].u.p.pts[i]; REORIGIN(newpts[j].pt,newpts[j].pt,xx->angle,xx->orig); } } MyFree(xx->segs[0].u.p.pts); xx->segs[0].u.p.cnt = new_cnt; xx->segs[0].u.p.pts = newpts; } break; default: return FALSE; } *leftover = NULL; if (tempSegs(0).type != -1) { *leftover = MakeDrawFromSeg( zero, 0.0, &tempSegs(0) ); struct extraDataDraw_t * yy = GET_EXTRA_DATA(*leftover, T_DRAW, extraDataDraw_t); yy->lineType = xx->lineType; if (tempSegs(0).type == SEG_POLY && tempSegs(0).u.p.pts) { MyFree(tempSegs(0).u.p.pts); tempSegs(0).u.p.cnt = 0; tempSegs(0).u.p.pts = NULL; } } if (*leftover) { //Polyline sets new_last to the end of the extra if (polyline_trim && (ep != new_last)) { *leftover = trk; } } xx->orig = zero; xx->angle = 0.0; ComputeDrawBoundingBox(trk); *ep0 = 1-ep; *ep1 = ep; return TRUE; } static BOOL_T MakeParallelDraw( track_p trk, coOrd pos, DIST_T sep, DIST_T factor, track_p * newTrkR, coOrd * p0R, coOrd * p1R, BOOL_T track) { if (track) { return FALSE; } struct extraDataDraw_t * xx = GET_EXTRA_DATA(trk, T_DRAW, extraDataDraw_t); ANGLE_T angle; DIST_T rad; DYNARR_SET(trkSeg_t, tempSegs_da, 1); switch (xx->segs[0].type) { case SEG_STRLIN: angle = NormalizeAngle(FindAngle(xx->segs[0].u.l.pos[0], xx->segs[0].u.l.pos[1])+xx->angle); if ( NormalizeAngle( FindAngle( xx->segs[0].u.l.pos[0], pos ) - angle ) < 180.0 ) { angle += 90; } else { angle -= 90; } coOrd p0,p1; REORIGIN(p0,xx->segs[0].u.l.pos[0],xx->angle,xx->orig); REORIGIN(p1,xx->segs[0].u.l.pos[1],xx->angle,xx->orig); Translate(&p0,p0, angle, sep); Translate(&p1,p1, angle, sep); DYNARR_SET( trkSeg_t, tempSegs_da, 1 ); tempSegs(0).color = xx->segs[0].color; tempSegs(0).lineWidth = xx->segs[0].lineWidth; tempSegs(0).type = SEG_STRLIN; tempSegs(0).u.l.pos[0] = p0; tempSegs(0).u.l.pos[1] = p1; if (newTrkR) { *newTrkR = MakeDrawFromSeg( zero, 0.0, &tempSegs(0) ); struct extraDataDraw_t * yy = GET_EXTRA_DATA(*newTrkR, T_DRAW, extraDataDraw_t); yy->lineType = xx->lineType; } if ( p0R ) { *p0R = p0; } if ( p1R ) { *p1R = p1; } return TRUE; break; case SEG_CRVLIN: case SEG_FILCRCL:; coOrd c; REORIGIN(c, xx->segs[0].u.c.center, xx->angle, xx->orig); rad = FindDistance( pos, c ); if ( rad > xx->segs[0].u.c.radius ) { rad = xx->segs[0].u.c.radius + sep; } else { rad = xx->segs[0].u.c.radius - sep; } DYNARR_SET( trkSeg_t, tempSegs_da, 1 ); tempSegs(0).color = xx->segs[0].color; tempSegs(0).lineWidth = xx->segs[0].lineWidth; tempSegs(0).type = SEG_CRVLIN; tempSegs(0).u.c.center = c; tempSegs(0).u.c.radius = rad; tempSegs(0).u.c.a0 = xx->segs[0].u.c.a0 + xx->angle; tempSegs(0).u.c.a1 = xx->segs[0].u.c.a1; if (newTrkR) { *newTrkR = MakeDrawFromSeg( zero, 0.0, &tempSegs(0) ); struct extraDataDraw_t * yy = GET_EXTRA_DATA(*newTrkR, T_DRAW, extraDataDraw_t); yy->lineType = xx->lineType; } if ( p0R ) { PointOnCircle( p0R, xx->segs[0].u.c.center, rad, xx->segs[0].u.c.a0 ); } if ( p1R ) { PointOnCircle( p1R, xx->segs[0].u.c.center, rad, xx->segs[0].u.c.a0+xx->segs[0].u.c.a1 ); } return TRUE; break; case SEG_POLY: case SEG_FILPOLY: pos.x -= xx->orig.x; pos.y -= xx->orig.y; Rotate( &pos, zero, -xx->angle ); coOrd p = pos; int inx2; angle = NormalizeAngle(GetAngleSegs(1,&xx->segs[0],&p,NULL,NULL,NULL,&inx2, NULL)+xx->angle); if ( NormalizeAngle( FindAngle( p, pos ) - angle ) < 180.0 ) { angle = +90.0; } else { angle = -90.0; } DYNARR_SET( trkSeg_t, tempSegs_da, 1 ); tempSegs(0).color = xx->segs[0].color; tempSegs(0).lineWidth = xx->segs[0].lineWidth; tempSegs(0).type = SEG_POLY; tempSegs(0).u.p.polyType = xx->segs[0].type==SEG_POLY?xx->segs[0].u.p.polyType: POLYLINE; tempSegs(0).u.p.pts = memdup( xx->segs[0].u.p.pts, xx->segs[0].u.p.cnt*sizeof (pts_t) ); tempSegs(0).u.p.cnt = xx->segs[0].u.p.cnt; ANGLE_T a,b; for (int i=0; isegs[0].u.p.cnt; i++) { REORIGIN(tempSegs(0).u.p.pts[i].pt,tempSegs(0).u.p.pts[i].pt,xx->angle, xx->orig); } for (int i=0; isegs[0].u.p.cnt; i++) { if (xx->segs[0].u.p.polyType == POLYLINE) { if (i==0) { a = FindAngle(tempSegs(0).u.p.pts[0].pt,tempSegs(0).u.p.pts[1].pt); b = 0; } else if (i==xx->segs[0].u.p.cnt-1) { a = NormalizeAngle(FindAngle(tempSegs(0).u.p.pts[i].pt, tempSegs(0).u.p.pts[i-1].pt)+180.0); b = 0; } else { a = FindAngle(tempSegs(0).u.p.pts[i].pt,tempSegs(0).u.p.pts[i+1].pt); b = DifferenceBetweenAngles(a,FindAngle(tempSegs(0).u.p.pts[i].pt, tempSegs(0).u.p.pts[i-1].pt)+180.0)/2; a = a + b; } } else { if (i==0) { a = FindAngle(tempSegs(0).u.p.pts[i].pt,tempSegs(0).u.p.pts[i+1].pt); b = DifferenceBetweenAngles(a,FindAngle(tempSegs(0).u.p.pts[i].pt, tempSegs(0).u.p.pts[xx->segs[0].u.p.cnt-1].pt)+180.0)/2; a = a+b; } else if (i==xx->segs[0].u.p.cnt-1) { a = FindAngle(tempSegs(0).u.p.pts[i].pt,tempSegs(0).u.p.pts[0].pt); b = DifferenceBetweenAngles(a,FindAngle(tempSegs(0).u.p.pts[i].pt, tempSegs(0).u.p.pts[i-1].pt)+180.0)/2; a = a+b; } else { a = FindAngle(tempSegs(0).u.p.pts[i].pt,tempSegs(0).u.p.pts[i+1].pt); b = DifferenceBetweenAngles(a,FindAngle(tempSegs(0).u.p.pts[i].pt, tempSegs(0).u.p.pts[i-1].pt)+180.0)/2; a = a+b; } } Translate(&tempSegs(0).u.p.pts[i].pt,tempSegs(0).u.p.pts[i].pt,a+angle, fabs(sep/cos(D2R(b)))); } if (newTrkR) { *newTrkR = MakeDrawFromSeg( zero, 0.0, &tempSegs(0) ); struct extraDataDraw_t * yy = GET_EXTRA_DATA(*newTrkR, T_DRAW, extraDataDraw_t); yy->lineType = xx->lineType; if (tempSegs(0).u.p.pts) { MyFree(tempSegs(0).u.p.pts); } } if (p0R) { *p0R = tempSegs(0).u.p.pts[0].pt; } if (p1R) { *p1R = tempSegs(0).u.p.pts[tempSegs(0).u.p.cnt-1].pt; } return TRUE; break; default: return FALSE; } return FALSE; } static trackCmd_t drawCmds = { "DRAW", DrawDraw, DistanceDraw, DescribeDraw, DeleteDraw, WriteDraw, ReadDraw, MoveDraw, RotateDraw, RescaleDraw, NULL, GetAngleDraw, /* getAngle */ SplitDraw, /* split */ NULL, /* traverse */ EnumerateDraw, NULL, /* redraw */ NULL, /* trim */ NULL, /* merge */ ModifyDraw, NULL, /* getLength */ GetParamsDraw, /* getTrackParams */ NULL, /* moveEndPt */ QueryDraw, /* query */ UngroupDraw, FlipDraw, NULL, NULL, NULL, MakeParallelDraw, /*Parallel*/ NULL, NULL, /*MakeSegs*/ ReplayDraw, StoreDraw, NULL, CompareDraw }; EXPORT BOOL_T OnTableEdgeEndPt( track_p trk, coOrd * pos ) { track_p trk1; struct extraDataDraw_t *xx; coOrd pos1 = *pos; ignoredTableEdge = trk; if ((trk1 = OnTrack( &pos1, FALSE, FALSE )) != NULL && GetTrkType(trk1) == T_DRAW) { ignoredTableEdge = NULL; xx = GET_EXTRA_DATA(trk1, T_DRAW, extraDataDraw_t); if (xx->segCnt < 1) { return FALSE; } if (xx->segs[0].type == SEG_TBLEDGE) { if ( IsClose( FindDistance( *pos, xx->segs[0].u.l.pos[0] ) ) ) { *pos = xx->segs[0].u.l.pos[0]; return TRUE; } else if ( IsClose( FindDistance( *pos, xx->segs[0].u.l.pos[1] ) ) ) { *pos = xx->segs[0].u.l.pos[1]; return TRUE; } } } ignoredTableEdge = NULL; return FALSE; } EXPORT BOOL_T GetClosestEndPt( track_p trk, coOrd * pos) { struct extraDataDraw_t *xx; if (GetTrkType(trk) == T_DRAW) { ignoredTableEdge = NULL; xx = GET_EXTRA_DATA(trk, T_DRAW, extraDataDraw_t); if (xx->segCnt < 1) { return FALSE; } DIST_T dd0,dd1; coOrd p00,p0,p1; p00 = *pos; if (GetTrkType(trk) == T_DRAW) { Rotate(&p00,xx->orig,-xx->angle); p00.x -= xx->orig.x; p00.y -= xx->orig.y; switch (xx->segs[0].type) { case SEG_CRVLIN: PointOnCircle( &p0, xx->segs[0].u.c.center, fabs(xx->segs[0].u.c.radius), xx->segs[0].u.c.a0 ); dd0 = FindDistance( p00, p0); PointOnCircle( &p1, xx->segs[0].u.c.center, fabs(xx->segs[0].u.c.radius), xx->segs[0].u.c.a0 + xx->segs[0].u.c.a1); dd1 = FindDistance( p00, p1); break; case SEG_STRLIN: dd0 = FindDistance( p00, xx->segs[0].u.l.pos[0]); p0 = xx->segs[0].u.l.pos[0]; dd1 = FindDistance( p00, xx->segs[0].u.l.pos[1]); p1 = xx->segs[0].u.l.pos[1]; break; case SEG_BEZLIN: dd0 = FindDistance( p00, xx->segs[0].u.b.pos[0]); p0 = xx->segs[0].u.b.pos[0]; dd1 = FindDistance( p00, xx->segs[0].u.b.pos[3]); p1 = xx->segs[0].u.b.pos[3]; break; default: return FALSE; } p0.x += xx->orig.x; p0.y += xx->orig.y; Rotate(&p0,xx->orig,xx->angle); p1.x += xx->orig.x; p1.y += xx->orig.y; Rotate(&p1,xx->orig,xx->angle); } else if (GetTrkType(trk) == T_BZRLIN) { coOrd p0,p1; xx = GET_EXTRA_DATA(trk, T_DRAW, extraDataDraw_t); p0 = xx->segs[0].u.b.pos[0]; p1 = xx->segs[0].u.b.pos[3]; dd0 = FindDistance(p00,p0); dd1 = FindDistance(p00,p1); } else { return FALSE; } if (dd0>dd1) { * pos = p1; return TRUE; } else { * pos = p0; return TRUE; } } return FALSE; } static drawContext_t drawCmdContext = { InfoMessage, DoRedraw, &mainD, OP_LINE }; static wIndex_t benchChoice; static wIndex_t benchOrient; static wIndex_t dimArrowSize; wDrawColor lineColor = 1; LWIDTH_T lineWidth = 0; wDrawColor benchColor; static paramData_t drawPLs[] = { #define drawLineWidthPD (drawPLs[0]) { PD_FLOAT, &lineWidth, "linewidth", PDO_NORECORD, &r100_100, N_("Line Width") }, #define drawColorPD (drawPLs[1]) { PD_COLORLIST, &lineColor, "linecolor", PDO_NORECORD, NULL, N_("Color") }, #define drawBenchColorPD (drawPLs[2]) { PD_COLORLIST, &benchColor, "benchcolor", PDO_NORECORD, NULL, N_("Color") }, #define drawBenchChoicePD (drawPLs[3]) #ifdef WINDOWS { PD_DROPLIST, &benchChoice, "benchlist", PDO_NOPREF|PDO_NORECORD|PDO_LISTINDEX, I2VP(120), N_("Lumber Type") }, #else { PD_DROPLIST, &benchChoice, "benchlist", PDO_NOPREF|PDO_NORECORD|PDO_LISTINDEX, I2VP(145), N_("Lumber Type") }, #endif #define drawBenchOrientPD (drawPLs[4]) #ifdef WINDOWS { PD_DROPLIST, &benchOrient, "benchorient", PDO_NOPREF|PDO_NORECORD|PDO_LISTINDEX, I2VP(45), "", 0 }, #else { PD_DROPLIST, &benchOrient, "benchorient", PDO_NOPREF|PDO_NORECORD|PDO_LISTINDEX, I2VP(105), "", 0 }, #endif #define drawDimArrowSizePD (drawPLs[5]) { PD_DROPLIST, &dimArrowSize, "arrowsize", PDO_NORECORD|PDO_LISTINDEX, I2VP(80), N_("Size") }, #define drawLengthPD (drawPLs[6]) { PD_FLOAT, &drawCmdContext.length, "length", PDO_DIM|PDO_NORECORD|BO_ENTER, &r0_10000, N_("Length") }, #define drawWidthPD (drawPLs[7]) { PD_FLOAT, &drawCmdContext.width, "width", PDO_DIM|PDO_NORECORD|BO_ENTER, &r0_10000, N_("Width") }, #define drawAnglePD (drawPLs[8]) #define drawAngleInx 8 { PD_FLOAT, &drawCmdContext.angle, "angle", PDO_NORECORD|BO_ENTER, &r360_360, N_("Angle") }, #define drawRadiusPD (drawPLs[9]) { PD_FLOAT, &drawCmdContext.radius, "radius", PDO_DIM|PDO_NORECORD|BO_ENTER, &r0_10000, N_("Radius") }, #define drawLineTypePD (drawPLs[10]) { PD_DROPLIST, &drawCmdContext.lineType, "type", PDO_DIM|PDO_NORECORD|BO_ENTER, I2VP(0), N_("Line Type") }, }; static paramGroup_t drawPG = { "draw", 0, drawPLs, COUNT( drawPLs ) }; static char * objectName[] = { N_("Straight"), N_("Dimension"), N_("Lumber"), N_("Table Edge"), N_("Curved"), N_("Curved"), N_("Curved"), N_("Curved"), N_("Circle"), N_("Circle"), N_("Circle"), N_("Box"), N_("Polygon"), N_("Filled Circle"), N_("Filled Circle"), N_("Filled Circle"), N_("Filled Box"), N_("Filled Polygon"), N_("Bezier Line"), N_("Polyline"), NULL }; static STATUS_T CmdDraw( wAction_t action, coOrd pos ) { static BOOL_T infoSubst = FALSE; wControl_p controls[5]; //Always needs a NULL last entry char * labels[4]; static char labelName[40]; wAction_t act2 = (action&0xFF) | (bezCmdCreateLine<<8); switch (action&0xFF) { case C_START: ParamLoadControls( &drawPG ); /*drawContext = &drawCmdContext;*/ drawLineWidthPD.option |= PDO_NORECORD; drawColorPD.option |= PDO_NORECORD; drawBenchColorPD.option |= PDO_NORECORD; drawBenchChoicePD.option |= PDO_NORECORD; drawBenchOrientPD.option |= PDO_NORECORD; drawDimArrowSizePD.option |= PDO_NORECORD; drawCmdContext.Op = (wIndex_t)VP2L(commandContext); if ( drawCmdContext.Op < 0 || drawCmdContext.Op > OP_LAST ) { NoticeMessage( "cmdDraw: Op %d", _("Ok"), NULL, drawCmdContext.Op ); drawCmdContext.Op = OP_LINE; } SetAllTrackSelect( FALSE ); /*DrawGeomOp( (drawCmdContext.Op>=0?drawCmdContext.Op:OP_LINE) );*/ infoSubst = TRUE; switch( drawCmdContext.Op ) { case OP_LINE: case OP_CURVE1: case OP_CURVE2: case OP_CURVE3: case OP_CURVE4: case OP_CIRCLE2: case OP_CIRCLE3: case OP_BEZLIN: case OP_BOX: case OP_POLY: case OP_POLYLINE: controls[0] = drawLineWidthPD.control; controls[1] = drawColorPD.control; controls[2] = drawLineTypePD.control; controls[2] = NULL; sprintf( labelName, _("%s Line Width"), _(objectName[drawCmdContext.Op]) ); labels[0] = labelName; labels[1] = N_("Color"); labels[2] = N_("Type"); if ( wListGetCount( (wList_p)drawLineTypePD.control ) == 0 ) { wListAddValue( (wList_p)drawLineTypePD.control, _("Solid"), NULL, NULL ); wListAddValue( (wList_p)drawLineTypePD.control, _("Dot"), NULL, NULL ); wListAddValue( (wList_p)drawLineTypePD.control, _("Dash"), NULL, NULL ); wListAddValue( (wList_p)drawLineTypePD.control, _("Dash-Dot"), NULL, NULL ); wListAddValue( (wList_p)drawLineTypePD.control, _("Dash-Dot-Dot"), NULL, NULL ); } InfoSubstituteControls( controls, labels ); drawLineWidthPD.option &= ~PDO_NORECORD; drawColorPD.option &= ~PDO_NORECORD; drawLineTypePD.option &= ~PDO_NORECORD; break; case OP_FILLCIRCLE2: case OP_FILLCIRCLE3: case OP_FILLBOX: case OP_FILLPOLY: controls[0] = drawColorPD.control; controls[1] = NULL; sprintf( labelName, _("%s Color"), _(objectName[drawCmdContext.Op]) ); labels[0] = labelName; ParamLoadControls( &drawPG ); InfoSubstituteControls( controls, labels ); drawColorPD.option &= ~PDO_NORECORD; break; case OP_BENCH: controls[0] = drawBenchChoicePD.control; controls[1] = drawBenchOrientPD.control; controls[2] = drawBenchColorPD.control; controls[3] = NULL; labels[0] = N_("Lumber Type"); labels[1] = ""; labels[2] = N_("Color"); if ( wListGetCount( (wList_p)drawBenchChoicePD.control ) == 0 ) { BenchLoadLists( (wList_p)drawBenchChoicePD.control, (wList_p)drawBenchOrientPD.control ); } ParamLoadControls( &drawPG ); BenchUpdateOrientationList( VP2L(wListGetItemContext( (wList_p) drawBenchChoicePD.control, benchChoice )), (wList_p)drawBenchOrientPD.control ); wListSetIndex( (wList_p)drawBenchOrientPD.control, benchOrient ); InfoSubstituteControls( controls, labels ); drawBenchColorPD.option &= ~PDO_NORECORD; drawBenchChoicePD.option &= ~PDO_NORECORD; drawBenchOrientPD.option &= ~PDO_NORECORD; drawLengthPD.option &= ~PDO_NORECORD; break; case OP_DIMLINE: controls[0] = drawDimArrowSizePD.control; controls[1] = NULL; labels[0] = N_("Dimension Line Size"); if ( wListGetCount( (wList_p)drawDimArrowSizePD.control ) == 0 ) { wListAddValue( (wList_p)drawDimArrowSizePD.control, _("Tiny"), NULL, NULL ); wListAddValue( (wList_p)drawDimArrowSizePD.control, _("Small"), NULL, NULL ); wListAddValue( (wList_p)drawDimArrowSizePD.control, _("Medium"), NULL, NULL ); wListAddValue( (wList_p)drawDimArrowSizePD.control, _("Large"), NULL, NULL ); } ParamLoadControls( &drawPG ); InfoSubstituteControls( controls, labels ); drawDimArrowSizePD.option &= ~PDO_NORECORD; break; case OP_TBLEDGE: InfoMessage( _("Drag to create Table Edge") ); break; default: InfoSubstituteControls( NULL, NULL ); infoSubst = FALSE; } ParamGroupRecord( &drawPG ); if (drawCmdContext.Op == OP_BEZLIN) { return CmdBezCurve(act2, pos); } DrawGeomMouse( C_START, pos, &drawCmdContext); return C_CONTINUE; case wActionLDown: ParamLoadData( &drawPG ); if (drawCmdContext.Op == OP_BEZLIN) { act2 = action | (bezCmdCreateLine<<8); return CmdBezCurve(act2, pos); } if ( drawCmdContext.Op == OP_BENCH ) { drawCmdContext.benchOption = GetBenchData( VP2L(wListGetItemContext(( wList_p)drawBenchChoicePD.control, benchChoice )), benchOrient ); lineColor = benchColor; } else if ( drawCmdContext.Op == OP_DIMLINE ) { lineColor = wDrawColorBlack; drawCmdContext.benchOption = dimArrowSize; } else if ( drawCmdContext.Op == OP_TBLEDGE ) { lineColor = wDrawColorBlack; } else { lineColor = lineColor; } if ( infoSubst ) { InfoSubstituteControls( NULL, NULL ); infoSubst = FALSE; } /* no break */ case wActionLDrag: ParamLoadData( &drawPG ); /* no break */ case wActionMove: case wActionRDown: case wActionRDrag: if (drawCmdContext.Op == OP_BEZLIN) { return CmdBezCurve(act2, pos); } return DrawGeomMouse( action, pos, &drawCmdContext); case wActionLUp: case wActionRUp: if (drawCmdContext.Op == OP_BEZLIN) { return CmdBezCurve(act2, pos); } drawCmdContext.show = TRUE; int rc = DrawGeomMouse( action, pos, &drawCmdContext); // Put up text entry boxes ready for updates if the result was continue if (rc == C_CONTINUE && drawCmdContext.show) { switch( drawCmdContext.Op ) { case OP_CIRCLE1: case OP_CIRCLE2: case OP_CIRCLE3: case OP_FILLCIRCLE1: case OP_FILLCIRCLE2: case OP_FILLCIRCLE3: controls[0] = drawRadiusPD.control; controls[1] = NULL; labels[0] = N_("Radius"); ParamLoadControls( &drawPG ); InfoSubstituteControls( controls, labels ); drawRadiusPD.option &= ~PDO_NORECORD; infoSubst = TRUE; break; case OP_CURVE1: case OP_CURVE2: case OP_CURVE3: case OP_CURVE4: if (drawCmdContext.ArcData.type == curveTypeCurve) { controls[0] = drawRadiusPD.control; controls[1] = drawAnglePD.control; controls[2] = NULL; labels[0] = N_("Radius"); labels[1] = N_("Arc Angle"); } else { controls[0] = drawLengthPD.control; controls[1] = drawAnglePD.control; controls[2] = NULL; labels[0] = N_("Length"); labels[1] = N_("Angle"); } ParamLoadControls( &drawPG ); InfoSubstituteControls( controls, labels ); drawLengthPD.option &= ~PDO_NORECORD; drawRadiusPD.option &= ~PDO_NORECORD; drawAnglePD.option &= ~PDO_NORECORD; infoSubst = TRUE; break; case OP_LINE: case OP_BENCH: case OP_TBLEDGE: case OP_POLY: case OP_FILLPOLY: case OP_POLYLINE: controls[0] = drawLengthPD.control; controls[1] = drawAnglePD.control; controls[2] = NULL; labels[0] = N_("Seg Length"); if (drawCmdContext.Op == OP_LINE || drawCmdContext.Op == OP_BENCH || drawCmdContext.Op == OP_TBLEDGE) { labels[1] = N_("Angle"); } else if (drawCmdContext.index > 0 ) { labels[1] = N_("Rel Angle"); } else { labels[1] = N_("Angle"); } ParamLoadControls( &drawPG ); InfoSubstituteControls( controls, labels ); drawLengthPD.option &= ~PDO_NORECORD; drawAnglePD.option &= ~PDO_NORECORD; infoSubst = TRUE; break; case OP_BOX: case OP_FILLBOX: controls[0] = drawLengthPD.control; controls[1] = drawWidthPD.control; controls[2] = NULL; labels[0] = N_("Length"); labels[1] = N_("Width"); ParamLoadControls( &drawPG ); InfoSubstituteControls( controls, labels ); drawLengthPD.option &= ~PDO_NORECORD; drawWidthPD.option &= ~PDO_NORECORD; infoSubst = TRUE; break; default: break; } } return rc; case C_CANCEL: InfoSubstituteControls( NULL, NULL ); if (drawCmdContext.Op == OP_BEZLIN) { return CmdBezCurve(act2, pos); } return DrawGeomMouse( action, pos, &drawCmdContext); case C_TEXT: if (drawCmdContext.Op == OP_BEZLIN) { return CmdBezCurve(action, pos); } return DrawGeomMouse( action, pos, &drawCmdContext); case C_OK: if (drawCmdContext.Op == OP_BEZLIN) { return CmdBezCurve(act2, pos); } return DrawGeomMouse( (0x0D<<8|wActionText), pos, &drawCmdContext); case C_CONFIRM: if (drawCmdContext.Op == OP_BEZLIN) { return CmdBezCurve(act2, pos); } return DrawGeomMouse( (0x0D<<8|wActionText), pos, &drawCmdContext); case C_FINISH: if (drawCmdContext.Op == OP_BEZLIN) { return CmdBezCurve(act2, pos); } return DrawGeomMouse( (0x0D<<8|wActionText), pos, &drawCmdContext); /*DrawOk( NULL );*/ case C_REDRAW: if (drawCmdContext.Op == OP_BEZLIN) { return CmdBezCurve(act2, pos); } return DrawGeomMouse( action, pos, &drawCmdContext); case C_CMDMENU: if (drawCmdContext.Op == OP_BEZLIN) { return C_CONTINUE; } return DrawGeomMouse( action, pos, &drawCmdContext); default: return C_CONTINUE; } } #include "bitmaps/straight-line.xpm3" #include "bitmaps/dimension.xpm3" #include "bitmaps/benchwork.xpm3" #include "bitmaps/table-edge.xpm3" #include "bitmaps/curved-line-end.xpm3" #include "bitmaps/curved-line-tangent.xpm3" #include "bitmaps/curved-line-middle.xpm3" #include "bitmaps/curved-line-chord.xpm3" /*#include "bitmaps/dcircle1.xpm"*/ #include "bitmaps/circle-line-center.xpm3" #include "bitmaps/circle-line-tangent.xpm3" /*#include "bitmaps/dflcrcl1.xpm"*/ #include "bitmaps/circle-filled-center.xpm3" #include "bitmaps/circle-filled-tangent.xpm3" #include "bitmaps/box.xpm3" #include "bitmaps/filled-box.xpm3" #include "bitmaps/polygon.xpm3" #include "bitmaps/filled-polygon.xpm3" #include "bitmaps/bezier-line.xpm3" #include "bitmaps/polyline.xpm3" typedef struct { char ***xpm; int OP; char * shortName; char * cmdName; char * helpKey; long acclKey; } drawData_t; static drawData_t dlineCmds[] = { { straight_line_xpm3, OP_LINE, N_("Line"), N_("Draw Line"), "cmdDrawLine", ACCL_DRAWLINE }, { dimension_xpm3, OP_DIMLINE, N_("Dimension Line"), N_("Draw Dimension Line"), "cmdDrawDimLine", ACCL_DRAWDIMLINE }, { benchwork_xpm3, OP_BENCH, N_("Benchwork"), N_("Draw Benchwork"), "cmdDrawBench", ACCL_DRAWBENCH }, { table_edge_xpm3, OP_TBLEDGE, N_("Table Edge"), N_("Draw Table Edge"), "cmdDrawTableEdge", ACCL_DRAWTBLEDGE } }; static drawData_t dcurveCmds[] = { { curved_line_end_xpm3, OP_CURVE1, N_("Curve End"), N_("Draw Curve from End"), "cmdDrawCurveEndPt", ACCL_DRAWCURVE1 }, { curved_line_tangent_xpm3, OP_CURVE2, N_("Curve Tangent"), N_("Draw Curve from Tangent"), "cmdDrawCurveTangent", ACCL_DRAWCURVE2 }, { curved_line_middle_xpm3, OP_CURVE3, N_("Curve Center"), N_("Draw Curve from Center"), "cmdDrawCurveCenter", ACCL_DRAWCURVE3 }, { curved_line_chord_xpm3, OP_CURVE4, N_("Curve Chord"), N_("Draw Curve from Chord"), "cmdDrawCurveChord", ACCL_DRAWCURVE4 }, { bezier_line_xpm3, OP_BEZLIN, N_("Bezier Curve"), N_("Draw Bezier"), "cmdDrawBezierCurve", ACCL_DRAWBEZLINE } }; static drawData_t dcircleCmds[] = { /*{ dcircle1_xpm, OP_CIRCLE1, "Circle Fixed Radius", "Draw Fixed Radius Circle", "cmdDrawCircleFixedRadius", ACCL_DRAWCIRCLE1 },*/ { circle_line_center_xpm3, OP_CIRCLE3, N_("Circle Center"), N_("Draw Circle from Center"), "cmdDrawCircleCenter", ACCL_DRAWCIRCLE2 }, { circle_line_tangent_xpm3, OP_CIRCLE2, N_("Circle Tangent"), N_("Draw Circle from Tangent"), "cmdDrawCircleTangent", ACCL_DRAWCIRCLE3 }, /*{ dflcrcl1_xpm, OP_FILLCIRCLE1, "Circle Filled Fixed Radius", "Draw Fixed Radius Filled Circle", "cmdDrawFilledCircleFixedRadius", ACCL_DRAWFILLCIRCLE1 },*/ { circle_filled_center_xpm3, OP_FILLCIRCLE3, N_("Circle Filled Center"), N_("Draw Filled Circle from Center"), "cmdDrawFilledCircleCenter", ACCL_DRAWFILLCIRCLE2 }, { circle_filled_tangent_xpm3, OP_FILLCIRCLE2, N_("Circle Filled Tangent"), N_("Draw Filled Circle from Tangent"), "cmdDrawFilledCircleTangent", ACCL_DRAWFILLCIRCLE3 } }; static drawData_t dshapeCmds[] = { { box_xpm3, OP_BOX, N_("Box"), N_("Draw Box"), "cmdDrawBox", ACCL_DRAWBOX }, { filled_box_xpm3, OP_FILLBOX, N_("Filled Box"), N_("Draw Filled Box"), "cmdDrawFilledBox", ACCL_DRAWFILLBOX }, { polygon_xpm3, OP_POLY, N_("Polygon"), N_("Draw Polygon"), "cmdDrawPolygon", ACCL_DRAWPOLY }, { filled_polygon_xpm3, OP_FILLPOLY, N_("Filled Polygon"), N_("Draw Filled Polygon"), "cmdDrawFilledPolygon", ACCL_DRAWFILLPOLYGON }, { polyline_xpm3, OP_POLYLINE, N_("PolyLine"), N_("Draw PolyLine"), "cmdDrawPolyline", ACCL_DRAWPOLYLINE }, }; typedef struct { char * helpKey; char * menuTitle; char * stickyLabel; int cnt; drawData_t * data; long acclKey; wIndex_t cmdInx; int curr; } drawStuff_t; static drawStuff_t drawStuff[4]; static drawStuff_t drawStuff[4] = { { "cmdDrawLineSetCmd", N_("Straight Objects"), N_("Draw Straight Objects"), 4, dlineCmds }, { "cmdDrawCurveSetCmd", N_("Curved Lines"), N_("Draw Curved Lines"), 5, dcurveCmds }, { "cmdDrawCircleSetCmd", N_("Circle Lines"), N_("Draw Circles"), 4, dcircleCmds }, { "cmdDrawShapeSetCmd", N_("Shapes"), N_("Draw Shapes"), 5, dshapeCmds} }; static void ChangeDraw( long changes ) { wIndex_t choice, orient; if ( changes & CHANGE_UNITS ) { if ( drawBenchChoicePD.control && drawBenchOrientPD.control ) { choice = wListGetIndex( (wList_p)drawBenchChoicePD.control ); orient = wListGetIndex( (wList_p)drawBenchOrientPD.control ); BenchLoadLists( (wList_p)drawBenchChoicePD.control, (wList_p)drawBenchOrientPD.control ); wListSetIndex( (wList_p)drawBenchChoicePD.control, choice ); wListSetIndex( (wList_p)drawBenchOrientPD.control, orient ); } } } static void DrawDlgUpdate( paramGroup_p pg, int inx, void * valueP ) { if (inx >=6 ) { if (drawCmdContext.Op == OP_CIRCLE1 || drawCmdContext.Op == OP_FILLCIRCLE1 || drawCmdContext.Op == OP_CIRCLE2 || drawCmdContext.Op == OP_FILLCIRCLE2 || drawCmdContext.Op == OP_CIRCLE3 || drawCmdContext.Op == OP_FILLCIRCLE3) { coOrd pos = zero; DrawGeomMouse(C_UPDATE,pos,&drawCmdContext); } if (drawCmdContext.Op == OP_CURVE1 || drawCmdContext.Op == OP_CURVE2 || drawCmdContext.Op == OP_CURVE3 || drawCmdContext.Op == OP_CURVE4 ) { coOrd pos = zero; DrawGeomMouse(C_UPDATE,pos,&drawCmdContext); } if (drawCmdContext.Op == OP_LINE || drawCmdContext.Op == OP_BENCH|| drawCmdContext.Op == OP_TBLEDGE) { coOrd pos = zero; DrawGeomMouse(C_UPDATE,pos,&drawCmdContext); } if (drawCmdContext.Op == OP_BOX || drawCmdContext.Op == OP_FILLBOX ) { coOrd pos = zero; DrawGeomMouse(C_UPDATE,pos,&drawCmdContext); } if (drawCmdContext.Op == OP_POLY || drawCmdContext.Op == OP_FILLPOLY || drawCmdContext.Op == OP_POLYLINE) { coOrd pos = zero; DrawGeomMouse(C_UPDATE,pos,&drawCmdContext); } ParamLoadControl(&drawPG,drawAngleInx); //Force Angle change out //if (pg->paramPtr[inx].enter_pressed) { // coOrd pos = zero; // DrawGeomMouse((0x0D<<8)|(C_TEXT&0xFF),pos,&drawCmdContext); // CmdDraw(C_START,pos); //} } if ( inx >= 0 && pg->paramPtr[inx].valueP == &benchChoice ) { BenchUpdateOrientationList( VP2L(wListGetItemContext( (wList_p) drawBenchChoicePD.control, (wIndex_t)*(long*)valueP )), (wList_p)drawBenchOrientPD.control ); } } EXPORT void InitCmdDraw( wMenu_p menu ) { int inx1, inx2; drawStuff_t * dsp; drawData_t * ddp; wIcon_p icon; lineColor = wDrawColorBlack; benchColor = wDrawFindColor( wRGB(255,192,0) ); ParamCreateControls( &drawPG, DrawDlgUpdate ); ParamCreateControls( &drawModPG, DrawModDlgUpdate) ; for ( inx1=0; inx1<4; inx1++ ) { dsp = &drawStuff[inx1]; ButtonGroupBegin( _(dsp->menuTitle), dsp->helpKey, _(dsp->stickyLabel) ); for ( inx2=0; inx2cnt; inx2++ ) { ddp = &dsp->data[inx2]; icon = wIconCreatePixMap( ddp->xpm[iconSize] ); AddMenuButton( menu, CmdDraw, ddp->helpKey, _(ddp->cmdName), icon, LEVEL0_50, IC_STICKY|IC_POPUP2|IC_WANT_MOVE, ddp->acclKey, I2VP(ddp->OP) ); } ButtonGroupEnd(); } ParamRegister( &drawPG ); RegisterChangeNotification( ChangeDraw ); } BOOL_T ReadTableEdge( char * line ) { track_p trk; TRKINX_T index; DIST_T elev0, elev1; trkSeg_t seg; wIndex_t layer; if ( !GetArgs( line, paramVersion<3?"dXpYpY":paramVersion<9 ?"dL000pYpY":"dL000pfpf", &index, &layer, &seg.u.l.pos[0], &elev0, &seg.u.l.pos[1], &elev1 ) ) { return FALSE; } seg.type = SEG_TBLEDGE; seg.color = wDrawColorBlack; seg.lineWidth = 0; trk = MakeDrawFromSeg1( index, zero, 0.0, &seg ); SetTrkLayer(trk, layer); return TRUE; } /** * Create a new segment for text. The data are stored in a trk structure. * Storage for the string is dynamically allocated. * * \param index IN of new element * \param pos IN coordinates of element * \param angle IN orientation * \param text IN text itself * \param textSize IN font size in pts * \param color IN text color * \return the newly allocated trk structure */ EXPORT track_p NewText( wIndex_t index, coOrd pos, ANGLE_T angle, char * text, CSIZE_T textSize, wDrawColor color, BOOL_T boxed) { trkSeg_t tempSeg; track_p trk; tempSeg.type = SEG_TEXT; tempSeg.color = color; tempSeg.lineWidth = 0; tempSeg.u.t.pos = pos; tempSeg.u.t.angle = angle; tempSeg.u.t.fontP = NULL; tempSeg.u.t.fontSize = textSize; tempSeg.u.t.string = MyStrdup( text ); tempSeg.u.t.boxed = boxed; trk = MakeDrawFromSeg1( index, zero, 0.0, &tempSeg ); return trk; } EXPORT BOOL_T ReadText( char * line ) { coOrd pos; CSIZE_T textSize; char * text; wIndex_t index; wIndex_t layer; track_p trk; ANGLE_T angle; wDrawColor color = wDrawColorBlack; if ( paramVersion<3 ) { if (!GetArgs( line, "XXpYql", &index, &layer, &pos, &angle, &text, &textSize )) { return FALSE; } } else if (paramVersion<9 ) { if (!GetArgs(line, "dL000pYql", &index, &layer, &pos, &angle, &text, &textSize)) { return FALSE; } } else { if (!GetArgs(line, "dLl00pfql", &index, &layer, &color, &pos, &angle, &text, &textSize )) { return FALSE; } } trk = NewText( index, pos, angle, text, textSize, color, FALSE ); SetTrkLayer( trk, layer ); MyFree(text); return TRUE; } void MenuMode(void * modeVP ) { int mode = (int)VP2L(modeVP); if ( infoSubst ) { InfoSubstituteControls( NULL, NULL ); infoSubst = FALSE; } if (mode == 1) { DrawGeomOriginMove(C_START,zero,&drawModCmdContext); InfoMessage("Origin Mode"); } else { DrawGeomModify(C_START,zero,&drawModCmdContext); InfoMessage("Points Mode"); } } void MenuEnter( void * keyVP ) { int key = (int)VP2L(keyVP); int action; action = C_TEXT; action |= key<<8; if (drawModCmdContext.rotate_state) { DrawGeomOriginMove(action,zero,&drawModCmdContext); } else { DrawGeomModify(action,zero,&drawModCmdContext); } } void MenuLine( void * keyVP ) { int key = (int)VP2L(keyVP); struct extraDataDraw_t * xx = GET_EXTRA_DATA(drawModCmdContext.trk, T_DRAW, extraDataDraw_t); if ( drawModCmdContext.type==SEG_STRLIN || drawModCmdContext.type==SEG_CRVLIN || drawModCmdContext.type==SEG_POLY ) { switch(key) { case '0': xx->lineType = DRAWLINESOLID; break; case '1': xx->lineType = DRAWLINEDASH; break; case '2': xx->lineType = DRAWLINEDOT; break; case '3': xx->lineType = DRAWLINEDASHDOT; break; case '4': xx->lineType = DRAWLINEDASHDOTDOT; break; case '5': xx->lineType = DRAWLINECENTER; break; case '6': xx->lineType = DRAWLINEPHANTOM; break; } MainRedraw(); // MenuLine } } EXPORT void SetLineType( track_p trk, int width ) { if (QueryTrack(trk, Q_IS_DRAW)) { struct extraDataDraw_t * xx = GET_EXTRA_DATA(trk, T_DRAW, extraDataDraw_t); if ( xx->segs[0].type==SEG_STRLIN || xx->segs[0].type==SEG_CRVLIN || xx->segs[0].type==SEG_POLY) { switch(width) { case 0: xx->lineType = DRAWLINESOLID; break; case 1: xx->lineType = DRAWLINEDASH; break; case 2: xx->lineType = DRAWLINEDOT; break; case 3: xx->lineType = DRAWLINEDASHDOT; break; case 4: xx->lineType = DRAWLINEDASHDOTDOT; break; case 5: xx->lineType = DRAWLINECENTER; break; case 6: xx->lineType = DRAWLINEPHANTOM; break; } } } } EXPORT void InitTrkDraw( void ) { T_DRAW = InitObject( &drawCmds ); AddParam( "TABLEEDGE", ReadTableEdge ); AddParam( "TEXT", ReadText ); drawModDelMI = MenuRegister( "Modify Draw Edit Menu" ); drawModClose = wMenuPushCreate( drawModDelMI, "", _("Close Polygon - 'g'"), 0, MenuEnter, I2VP( 'g')); drawModOpen = wMenuPushCreate( drawModDelMI, "", _("Make PolyLine - 'l'"), 0, MenuEnter, I2VP( 'l')); drawModFill = wMenuPushCreate( drawModDelMI, "", _("Fill Polygon - 'f'"), 0, MenuEnter, I2VP( 'f')); drawModEmpty = wMenuPushCreate( drawModDelMI, "", _("Empty Polygon - 'u'"), 0, MenuEnter, I2VP( 'u')); wMenuSeparatorCreate( drawModDelMI ); drawModPointsMode = wMenuPushCreate( drawModDelMI, "", _("Points Mode - 'p'"), 0, MenuMode, I2VP( 0 )); drawModDel = wMenuPushCreate( drawModDelMI, "", _("Delete Selected Point - 'Del'"), 0, MenuEnter, I2VP( 127 )); drawModVertex = wMenuPushCreate( drawModDelMI, "", _("Vertex Point - 'v'"), 0, MenuEnter, I2VP( 'v' )); drawModRound = wMenuPushCreate( drawModDelMI, "", _("Round Corner - 'r'"), 0, MenuEnter, I2VP( 'r' )); drawModSmooth = wMenuPushCreate( drawModDelMI, "", _("Smooth Corner - 's'"), 0, MenuEnter, I2VP( 's' )); wMenuSeparatorCreate( drawModDelMI ); drawModLinMI = wMenuMenuCreate( drawModDelMI, "", _("LineType...") ); drawModSolid = wMenuPushCreate( drawModLinMI, "", _("Solid Line"), 0, MenuLine, I2VP( '0' )); drawModDot = wMenuPushCreate( drawModLinMI, "", _("Dashed Line"), 0, MenuLine, I2VP( '1' )); drawModDash = wMenuPushCreate( drawModLinMI, "", _("Dotted Line"), 0, MenuLine, I2VP( '2' )); drawModDashDot = wMenuPushCreate( drawModLinMI, "", _("Dash-Dot Line"), 0, MenuLine, I2VP( '3' )); drawModDashDotDot = wMenuPushCreate( drawModLinMI, "", _("Dash-Dot-Dot Line"), 0, MenuLine, I2VP( '4' )); drawModCenterDot = wMenuPushCreate( drawModLinMI, "", _("Center-Dot Line"), 0, MenuLine, I2VP( '5' )); drawModPhantom = wMenuPushCreate( drawModLinMI, "", _("Phantom-Dot Line"), 0, MenuLine, I2VP( '6' )); wMenuSeparatorCreate( drawModDelMI ); drawModriginMode = wMenuPushCreate( drawModDelMI, "", _("Origin Mode - 'o'"), 0, MenuMode, I2VP( 1 )); drawModOrigin = wMenuPushCreate( drawModDelMI, "", _("Reset Origin - '0'"), 0, MenuEnter, I2VP( '0' )); drawModLast = wMenuPushCreate( drawModDelMI, "", _("Origin to Selected - 'l'"), 0, MenuEnter, I2VP( 'l' )); drawModCenter = wMenuPushCreate( drawModDelMI, "", _("Origin to Middle - 'm'"), 0, MenuEnter, I2VP( 'm')); }