*/}}
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la_tns_shape.c 24 KB

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  1. /*
  2. * LaGUI: A graphical application framework.
  3. * Copyright (C) 2022-2023 Wu Yiming
  4. *
  5. * This program is free software: you can redistribute it and/or modify
  6. * it under the terms of the GNU General Public License as published by
  7. * the Free Software Foundation, either version 3 of the License, or
  8. * (at your option) any later version.
  9. *
  10. * This program is distributed in the hope that it will be useful,
  11. * but WITHOUT ANY WARRANTY; without even the implied warranty of
  12. * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
  13. * GNU General Public License for more details.
  14. *
  15. * You should have received a copy of the GNU General Public License
  16. * along with this program. If not, see <http://www.gnu.org/licenses/>.
  17. */
  18. #include "la_5.h"
  19. #include <math.h>
  20. extern LA MAIN;
  21. extern tnsMain *T;
  22. tnsShape* tnsNewShape(tnsShapeObject* so){
  23. tnsShape* s=memAcquireSimple(sizeof(tnsShape));
  24. lstAppendItem(&so->Shapes,s); return s;
  25. }
  26. tnsSPoint* tnsNewSPoint(tnsShape* s,real x, real y,real ldx,real ldy, real rdx,real rdy){
  27. tnsSPoint* sp=memAcquireSimple(sizeof(tnsSPoint));
  28. tnsVectorSet2(sp->p,x,y); tnsVectorSet2(sp->dl,ldx,ldy); tnsVectorSet2(sp->dr,rdx,rdy);
  29. lstAppendItem(&s->Points,sp); return sp;
  30. }
  31. tnsSPoint* tnsShapeInsertSPointAt(tnsShape* s, tnsSPoint* pivot, int before){
  32. tnsSPoint* sp=memAcquireSimple(sizeof(tnsSPoint));
  33. tnsVectorSet2v(sp->p,pivot->p); tnsVectorSet2v(sp->dl,pivot->dl); tnsVectorSet2v(sp->dr,pivot->dr);
  34. if(before){ lstInsertItemBefore(&s->Points,sp,pivot); }
  35. else{ lstInsertItemAfter(&s->Points,sp,pivot); }
  36. }
  37. void tnsShapeSetHole(tnsShape* s, int closed, int toggle){
  38. if(toggle) tnsShapeSetHole(s,!(s->flags&TNS_SHAPE_HOLE),0);
  39. else{ if(closed) s->flags|=TNS_SHAPE_HOLE; else s->flags&=(~TNS_SHAPE_HOLE); }
  40. }
  41. void tnsShapeSetClosed(tnsShape* s, int closed, int toggle){
  42. if(toggle) tnsShapeSetClosed(s,!(s->flags&TNS_SHAPE_CLOSED),0);
  43. else{ if(closed) s->flags|=TNS_SHAPE_CLOSED; else s->flags&=(~TNS_SHAPE_CLOSED); }
  44. }
  45. void tnsShapeSetEndPoint(tnsShape* s, tnsSPoint* p){
  46. tnsSPoint* ep=s->Points.pLast, *sp=s->Points.pFirst, *np=p->Item.pNext; if(!np || ep==sp || sp->Item.pNext==ep) return;
  47. sp->Item.pPrev=ep; ep->Item.pNext=sp; np->Item.pPrev=0; p->Item.pNext=0;
  48. s->Points.pFirst=np; s->Points.pLast=p;
  49. }
  50. void tnsShapeClearExtraFlags(tnsShapeObject* so){
  51. for(tnsShape* s=so->Shapes.pFirst;s;s=s->Item.pNext){ s->flags&=(~TNS_MESH_FLAG_PICKED);
  52. for(tnsSPoint* sp=s->Points.pFirst;sp;sp=sp->Item.pNext){ sp->flags&=(~TNS_MESH_FLAG_PICKED); }
  53. }
  54. }
  55. void tnsShapeRefreshIndex(tnsShapeObject* so){
  56. u32bit i=0; tnsShape* NextS; for(tnsShape* s=so->Shapes.pFirst;s;s=NextS){ NextS=s->Item.pNext;
  57. if(!s->Points.pFirst){ lstRemoveItem(&so->Shapes,s); memLeave(s); continue; }
  58. for(tnsSPoint* sp=s->Points.pFirst;sp;sp=sp->Item.pNext){ sp->i=i; i++; }
  59. }
  60. }
  61. int tnsShapePointAnySelected(tnsShape* s){
  62. for(tnsSPoint* sp=s->Points.pFirst;sp;sp=sp->Item.pNext){ if(sp->flags&TNS_SPOINT_SELECTED) return 1; } return 0;
  63. }
  64. int tnsShapeAnySelected(tnsShapeObject* so){
  65. for(tnsShape* s=so->Shapes.pFirst;s;s=s->Item.pNext){ if(tnsShapePointAnySelected(s)) return 1; } return 0;
  66. }
  67. void tnsShapeDeselectAll(tnsShapeObject* so){
  68. for(tnsShape* s=so->Shapes.pFirst;s;s=s->Item.pNext){
  69. for(tnsSPoint* sp=s->Points.pFirst;sp;sp=sp->Item.pNext){ sp->flags&=(~TNS_SPOINT_SELECTED); }
  70. }
  71. }
  72. void tnsShapeSelectAll(tnsShapeObject* so){
  73. for(tnsShape* s=so->Shapes.pFirst;s;s=s->Item.pNext){
  74. for(tnsSPoint* sp=s->Points.pFirst;sp;sp=sp->Item.pNext){ sp->flags|=TNS_SPOINT_SELECTED; }
  75. }
  76. }
  77. void tnsShapeSelectPoint(tnsShapeObject* so, tnsSPoint* sp, int select, int toggle, int lr){
  78. if(!so) return; int flag=(lr==1)?TNS_SPOINT_SELECTED_L:(lr==2)?TNS_SPOINT_SELECTED_R:(TNS_SPOINT_SELECTED);
  79. if(!(sp->flags&TNS_SPOINT_BEZIER)){ flag=TNS_SPOINT_SELECTED; }
  80. if(toggle) tnsShapeSelectPoint(so,sp,((sp->flags&flag)==flag?0:1),0,lr);
  81. elif(select) sp->flags|=flag; else sp->flags&=(~flag);
  82. //if(!so->FirstSelectV) so->FirstSelectV=sp; so->LastSelectV=sp;
  83. }
  84. void tnsShapeSelectRingFrom(tnsShapeObject* so, tnsSPoint* sp, int select, int toggle){
  85. int has_idle=0; laListHandle spl={sp->Item.pPrev,sp->Item.pNext};
  86. while(spl.pFirst && ((laListItem*)spl.pFirst)->pPrev){ spl.pFirst=((laListItem*)spl.pFirst)->pPrev; }
  87. while(spl.pLast && ((laListItem*)spl.pLast)->pNext){ spl.pLast=((laListItem*)spl.pLast)->pNext; }
  88. if(toggle){
  89. for(tnsSPoint* isp=spl.pFirst;isp;isp=isp->Item.pNext){
  90. if(isp!=sp && (!(isp->flags&TNS_SPOINT_SELECTED))) has_idle=1;
  91. if(has_idle){ break; }
  92. }
  93. if(has_idle){ select=1; }else{ select=0; }
  94. }
  95. for(tnsSPoint* isp=spl.pFirst;isp;isp=isp->Item.pNext){
  96. if(select){ isp->flags|=TNS_SPOINT_SELECTED; }else{ isp->flags&=(~TNS_SPOINT_SELECTED); }
  97. }
  98. }
  99. tnsShape* tnsShapeRemovePoint(tnsShapeObject* so, tnsShape* s, tnsSPoint* sp, int SplitShape){
  100. if(SplitShape && sp->Item.pNext && sp->Item.pPrev){
  101. if(s->flags&TNS_SHAPE_CLOSED){ tnsShapeSetEndPoint(s,sp); }
  102. tnsShape* ns=tnsNewShape(so); ns->mat=s->mat;
  103. tnsSPoint* NextIP; for(tnsSPoint* ip=sp->Item.pNext;ip;ip=NextIP){ NextIP=ip->Item.pNext;
  104. tnsSPoint* nsp=tnsNewSPoint(ns,ip->p[0],ip->p[1],ip->dl[0],ip->dl[1],ip->dr[0],ip->dr[1]);
  105. nsp->flags=ip->flags; lstRemoveItem(&s->Points,ip);
  106. }
  107. s->flags&=(~TNS_SHAPE_CLOSED); ns->flags&=(~TNS_SHAPE_CLOSED);
  108. lstRemoveItem(&s->Points,sp); memLeave(sp); return ns;
  109. }else{
  110. lstRemoveItem(&s->Points,sp); memLeave(sp); return 0;
  111. }
  112. }
  113. int tnsShapeConnect(tnsShapeObject* so, tnsShape* s1, tnsShape* s2, tnsSPoint* sp1, tnsSPoint* sp2){
  114. if((sp1!=s1->Points.pFirst && sp1!=s1->Points.pLast) || (sp2!=s2->Points.pFirst && sp2!=s2->Points.pLast)) return 0;
  115. if(sp1==s1->Points.pFirst){ lstReverse(&s1->Points);for(tnsSPoint*sp=s1->Points.pFirst;sp;sp=sp->Item.pNext){ LA_SWAP(real,sp->dl[0],sp->dr[0]); LA_SWAP(real,sp->dl[1],sp->dr[1]); } }
  116. if(sp2==s2->Points.pLast){ lstReverse(&s2->Points);for(tnsSPoint*sp=s2->Points.pFirst;sp;sp=sp->Item.pNext){ LA_SWAP(real,sp->dl[0],sp->dr[0]); LA_SWAP(real,sp->dl[1],sp->dr[1]); } }
  117. tnsSPoint* ip;while(ip=lstPopItem(&s2->Points)){
  118. tnsSPoint* nsp=tnsNewSPoint(s1,ip->p[0],ip->p[1],ip->dl[0],ip->dl[1],ip->dr[0],ip->dr[1]);
  119. nsp->flags=ip->flags; memLeave(ip);
  120. }
  121. lstRemoveItem(&so->Shapes.pFirst,s2); memLeave(s2); tnsShapeRefreshIndex(so);
  122. return 1;
  123. }
  124. int tnsShapeConnectSelected(tnsShapeObject* so){
  125. tnsShape* s1=0,*s2=0; tnsSPoint* sp1=0,*sp2=0;
  126. for(tnsShape*s=so->Shapes.pFirst;s;s=s->Item.pNext){ if(s->flags&TNS_SHAPE_CLOSED) continue;
  127. if(!s1){
  128. if(((tnsSPoint*)s->Points.pFirst)->flags&TNS_MESH_FLAG_SELECTED){ s1=s;sp1=s->Points.pFirst; }
  129. elif(((tnsSPoint*)s->Points.pLast)->flags&TNS_MESH_FLAG_SELECTED){ s1=s;sp1=s->Points.pLast; }
  130. }else{
  131. if(((tnsSPoint*)s->Points.pFirst)->flags&TNS_MESH_FLAG_SELECTED){ s2=s;sp2=s->Points.pFirst; break; }
  132. elif(((tnsSPoint*)s->Points.pLast)->flags&TNS_MESH_FLAG_SELECTED){ s2=s;sp2=s->Points.pLast; break; }
  133. }
  134. }
  135. if(s1&&s2&&sp1&&sp2){ return tnsShapeConnect(so,s1,s2,sp1,sp2); } return 0;
  136. }
  137. int tnsShapeExtrudeSelected(tnsShapeObject* so, int DupliOnly){
  138. laListHandle* pairs; tnsShape* NextS; int any=0;
  139. for(tnsShape* s=so->Shapes.pFirst;s;s=NextS){ NextS=s->Item.pNext;
  140. if(s->flags&TNS_MESH_FLAG_PICKED){ continue; }
  141. tnsSPoint* PrevSP=0,*NextSP=0,*nsp=0;
  142. tnsShape* ns=0; int broken=0;
  143. for(tnsSPoint* sp=s->Points.pFirst;sp;sp=sp->Item.pNext){
  144. if(!(sp->flags&TNS_MESH_FLAG_SELECTED)){ broken=1; break; }
  145. }
  146. if(!broken){ any=1;
  147. tnsShape* ns=tnsNewShape(so); for(tnsSPoint* sp=s->Points.pFirst;sp;sp=sp->Item.pNext){
  148. tnsSPoint* nsp=tnsNewSPoint(ns,sp->p[0],sp->p[1],sp->dl[0],sp->dl[1],sp->dr[0],sp->dr[1]); nsp->flags=sp->flags;
  149. }
  150. ns->flags=(s->flags|TNS_MESH_FLAG_PICKED); ns->mat=s->mat;
  151. for(tnsSPoint* sp=s->Points.pFirst;sp;sp=sp->Item.pNext){ sp->flags&=(~TNS_SPOINT_SELECTED); } continue;
  152. }
  153. for(tnsSPoint* sp=s->Points.pFirst;sp;sp=NextSP){ NextSP=sp->Item.pNext;
  154. if(!(sp->flags&TNS_MESH_FLAG_SELECTED)){ PrevSP=sp; continue; }
  155. int doprev=0,donext=0;
  156. if((!PrevSP) || (PrevSP->flags^sp->flags)&TNS_MESH_FLAG_SELECTED){ doprev=1; }
  157. if((!NextSP) || (NextSP->flags^sp->flags)&TNS_MESH_FLAG_SELECTED){ donext=1; }
  158. if(DupliOnly){
  159. if(doprev){ ns=tnsNewShape(so); ns->flags=(s->flags&(~TNS_SHAPE_CLOSED));
  160. ns->flags|=TNS_MESH_FLAG_PICKED; ns->mat=s->mat; any=1;
  161. }
  162. if(ns){ nsp=tnsNewSPoint(ns,sp->p[0],sp->p[1],sp->dl[0],sp->dl[1],sp->dr[0],sp->dr[1]);
  163. nsp->flags=sp->flags;
  164. }
  165. if(donext){ ns=0; }
  166. }else{
  167. if(!(doprev&&donext)){ any=1;
  168. if(doprev) tnsShapeInsertSPointAt(s,sp,1);
  169. elif(donext) tnsShapeInsertSPointAt(s,sp,0);
  170. }else{
  171. if((!NextSP) && donext){ tnsShapeInsertSPointAt(s,sp,1); }
  172. else{ tnsShapeInsertSPointAt(s,sp,0); }
  173. }
  174. }
  175. PrevSP=sp;
  176. }
  177. }
  178. if(DupliOnly){
  179. for(tnsShape* s=so->Shapes.pFirst;s;s=NextS){ NextS=s->Item.pNext;
  180. if(s->flags&TNS_MESH_FLAG_PICKED){ continue; }
  181. for(tnsSPoint* sp=s->Points.pFirst;sp;sp=sp->Item.pNext){ sp->flags&=(~TNS_SPOINT_SELECTED); }
  182. }
  183. }
  184. tnsShapeClearExtraFlags(so);
  185. tnsShapeRefreshIndex(so);
  186. return any;
  187. }
  188. void tnsShapeEnterEditMode(tnsShapeObject* so){
  189. if(so->Mode==TNS_MESH_EDIT_MODE) return;
  190. so->Mode = TNS_MESH_EDIT_MODE;
  191. tnsInvalidateEvaluation(so);
  192. }
  193. void tnsShapeLeaveEditMode(tnsShapeObject* so){
  194. if(so->Mode==TNS_MESH_OBJECT_MODE) return;
  195. so->Mode = TNS_MESH_OBJECT_MODE;
  196. tnsInvalidateEvaluation(so);
  197. }
  198. tnsShapeObject* tnsDuplicateShapeObject(tnsShapeObject* from){
  199. if(from->Base.Type!=TNS_OBJECT_SHAPE) return 0;
  200. tnsShapeObject* to = memAcquireHyper(sizeof(tnsShapeObject));
  201. tnsInitObjectBase(to, from->Base.ParentObject?from->Base.ParentObject:from->Base.InRoot, from->Base.Name->Ptr, TNS_OBJECT_SHAPE,0,0,0,0,0,0,0,0,1);
  202. tnsCopyObjectTransformationsLocal(to,from);
  203. tnsMaterialSlot* new_current=0;
  204. for(tnsMaterialSlot* ms=from->Materials.pFirst;ms;ms=ms->Item.pNext){
  205. tnsMaterialSlot* nms=tnsNewMaterialSlot(to); nms->Index=ms->Index;
  206. memAssignRef(nms,&nms->Material,ms->Material);
  207. if(ms==from->CurrentMaterial) new_current=nms;
  208. }
  209. memAssignRef(to,&to->CurrentMaterial,new_current);
  210. if(!from->Shapes.pFirst){ return to; }
  211. for(tnsShape* s=from->Shapes.pFirst;s;s=s->Item.pNext){
  212. tnsShape* ns=tnsNewShape(to); for(tnsSPoint* sp=s->Points.pFirst;sp;sp=sp->Item.pNext){
  213. tnsSPoint* nsp=tnsNewSPoint(ns,sp->p[0],sp->p[1],sp->dl[0],sp->dl[1],sp->dr[0],sp->dr[1]); nsp->flags=sp->flags;
  214. }
  215. ns->flags=s->flags;ns->mat=s->mat;
  216. }
  217. return to;
  218. }
  219. void tnsInitShapeSquare(tnsShapeObject* so, real size){
  220. tnsShape* s=tnsNewShape(so);
  221. tnsNewSPoint(s,-size,-size,0,0,0,0)->flags|=TNS_MESH_FLAG_SELECTED;
  222. tnsNewSPoint(s,-size,size,0,0,0,0)->flags|=TNS_MESH_FLAG_SELECTED;
  223. tnsNewSPoint(s,size,size,0,0,0,0)->flags|=TNS_MESH_FLAG_SELECTED;
  224. tnsNewSPoint(s,size,-size,0,0,0,0)->flags|=TNS_MESH_FLAG_SELECTED;
  225. tnsShapeSetClosed(s,1,0); tnsShapeRefreshIndex(so);
  226. }
  227. void tns_DrawShape(tnsShape* s, real* override_color, int DrawEdit, real PointScale){
  228. if(!s->Points.pFirst) return; int HasSelection=0; int closed=(s->flags&TNS_SHAPE_CLOSED);
  229. NVGcontext* vg=MAIN.CurrentWindow->nvg;
  230. if(DrawEdit==2){
  231. nvgShapeAntiAlias(vg,0);
  232. for(tnsSPoint* sp=s->Points.pFirst;sp;sp=sp->Item.pNext){ real color[4]={0,0,0,1};
  233. nvgBeginPath(vg); nvgCircle(vg,sp->p[0],sp->p[1],PointScale*1);
  234. TNS_ID_TO_COLOR(color,sp->i*3+1); nvgFillColor(vg,nvgRGBAf(LA_COLOR4(color))); nvgFill(vg);
  235. nvgBeginPath(vg); nvgCircle(vg,sp->p[0]+sp->dl[0],sp->p[1]+sp->dl[1],PointScale*1);
  236. TNS_ID_TO_COLOR(color,sp->i*3+2); nvgFillColor(vg,nvgRGBAf(LA_COLOR4(color))); nvgFill(vg);
  237. nvgBeginPath(vg); nvgCircle(vg,sp->p[0]+sp->dr[0],sp->p[1]+sp->dr[1],PointScale*1);
  238. TNS_ID_TO_COLOR(color,sp->i*3+3); nvgFillColor(vg,nvgRGBAf(LA_COLOR4(color))); nvgFill(vg);
  239. }
  240. nvgShapeAntiAlias(vg,1);
  241. return;
  242. }
  243. if(DrawEdit){ nvgBeginPath(vg); }
  244. tnsSPoint* sp1=s->Points.pFirst; nvgMoveTo(vg,sp1->p[0],sp1->p[1]); if(sp1->flags&TNS_SPOINT_SELECTED){HasSelection=1;}
  245. for(tnsSPoint* sp=sp1->Item.pNext;sp;sp=sp->Item.pNext){
  246. if(sp->flags&TNS_SPOINT_SELECTED){HasSelection=1;}
  247. if(sp->Item.pPrev){ tnsSPoint* np=sp->Item.pPrev;
  248. real c1[2],c2[2]; tnsVectorSet2v(c1,np->p); tnsVectorSet2v(c2,sp->p);
  249. if(np->flags&TNS_SPOINT_BEZIER){ tnsVectorAccum2d(c1,np->dr); }
  250. if(sp->flags&TNS_SPOINT_BEZIER){ tnsVectorAccum2d(c2,sp->dl); }
  251. nvgBezierTo(vg,c1[0],c1[1],c2[0],c2[1],sp->p[0],sp->p[1]);
  252. }else{
  253. nvgLineTo(vg,sp->p[0],sp->p[1]);
  254. }
  255. }
  256. if(closed && (sp1!=s->Points.pLast)){
  257. tnsSPoint* np=s->Points.pLast; tnsSPoint* sp=sp1;
  258. real c1[2],c2[2]; tnsVectorSet2v(c1,np->p); tnsVectorSet2v(c2,sp->p);
  259. if(np->flags&TNS_SPOINT_BEZIER){ tnsVectorAccum2d(c1,np->dr); }
  260. if(sp->flags&TNS_SPOINT_BEZIER){ tnsVectorAccum2d(c2,sp->dl); }
  261. nvgBezierTo(vg,c1[0],c1[1],c2[0],c2[1],sp->p[0],sp->p[1]);
  262. nvgClosePath(vg);
  263. nvgPathWinding(vg,(s->flags&TNS_SHAPE_HOLE)?NVG_HOLE:NVG_SOLID);
  264. if(!(s->flags&TNS_SHAPE_HOLE)){
  265. nvgFillColor(vg, override_color?nvgRGBAf(LA_COLOR4(override_color)):nvgRGBAf(0.8,0.8,0.8,1));
  266. }
  267. }
  268. if(DrawEdit || (!closed)){
  269. tnsVector4d color; tnsVectorCopy4d(laAccentColor(LA_BT_VERTEX),color);
  270. real* ActiveColor=laAccentColor(LA_BT_SVERTEX);
  271. if(DrawEdit && (!HasSelection)) color[3]*=0.4;
  272. nvgStrokeColor(vg,override_color?nvgRGBAf(LA_COLOR4(override_color)):nvgRGBAf(LA_COLOR4(color)));
  273. nvgStrokeWidth(vg,PointScale*4);
  274. if(!DrawEdit){nvgShapeAntiAlias(vg,0);nvgStroke(vg);nvgShapeAntiAlias(vg,1);return;}
  275. nvgStroke(vg);
  276. for(tnsSPoint* sp=s->Points.pFirst;sp;sp=sp->Item.pNext){ int mainsel=sp->flags&TNS_MESH_FLAG_SELECTED;
  277. if(sp->flags&(TNS_SPOINT_FREE|TNS_SPOINT_ALIGNED)){
  278. nvgStrokeWidth(vg,PointScale*2);
  279. nvgStrokeColor(vg,(mainsel||(sp->flags&TNS_SPOINT_SELECTED_L))?nvgRGBAf(LA_COLOR4(ActiveColor)):nvgRGBAf(LA_COLOR4(color)));
  280. nvgBeginPath(vg); nvgMoveTo(vg,sp->p[0]+sp->dl[0],sp->p[1]+sp->dl[1]); nvgLineTo(vg,sp->p[0],sp->p[1]);
  281. nvgStroke(vg);
  282. nvgBeginPath(vg); nvgCircle(vg,sp->p[0]+sp->dl[0],sp->p[1]+sp->dl[1],PointScale*5);
  283. nvgStroke(vg);
  284. nvgStrokeColor(vg,(mainsel||(sp->flags&TNS_SPOINT_SELECTED_R))?nvgRGBAf(LA_COLOR4(ActiveColor)):nvgRGBAf(LA_COLOR4(color)));
  285. nvgBeginPath(vg); nvgMoveTo(vg,sp->p[0]+sp->dr[0],sp->p[1]+sp->dr[1]); nvgLineTo(vg,sp->p[0],sp->p[1]);
  286. nvgStroke(vg);
  287. nvgBeginPath(vg); nvgCircle(vg,sp->p[0]+sp->dr[0],sp->p[1]+sp->dr[1],PointScale*5);
  288. nvgStroke(vg);
  289. }
  290. nvgBeginPath(vg); nvgCircle(vg,sp->p[0],sp->p[1],PointScale*5);
  291. nvgFillColor(vg,mainsel?nvgRGBAf(LA_COLOR4(ActiveColor)):nvgRGBAf(LA_COLOR4(color)));
  292. nvgFill(vg);
  293. }
  294. }
  295. }
  296. void tnsDrawShapeObjectShapes(tnsEvaluatedInstance* ei, la3DObjectDrawExtra* de, real* override_color, int DrawEdit){
  297. tnsShapeObject* so=ei->Object; NVGcontext* vg=MAIN.CurrentWindow->nvg;
  298. real sca[3]; tnsExtractScale44d(ei->Mat,sca);
  299. real rot[3]; tnsExtractXYZEuler44d(ei->Mat,rot);
  300. nvgSave(vg);
  301. if(de->Is3D){
  302. tnsVector4d pos; tnsApplyTransform44d(pos,de->mViewProj,&ei->Mat[12]);
  303. pos[0]/=pos[3]; pos[1]/=pos[3];
  304. nvgTranslate(vg,pos[0]*de->W/2,pos[1]*de->H/2);
  305. nvgScale(vg,LA_RH*sca[0],LA_RH*sca[1]); nvgRotate(vg,rot[2]);
  306. }else{
  307. nvgTranslate(vg,ei->Mat[12],-ei->Mat[13]);
  308. nvgScale(vg,sca[0],-sca[1]); nvgRotate(vg,rot[2]);
  309. }
  310. if(DrawEdit!=2){ int begun=0; int ishole=0,nexthole=0;
  311. for(tnsShape*s=so->Shapes.pFirst;s;s=s->Item.pNext){
  312. if(!begun){ begun=1; nvgBeginPath(vg); }
  313. ishole=s->flags&TNS_SHAPE_HOLE; tnsShape* ns=s->Item.pNext; nexthole=ns?(ns->flags&TNS_SHAPE_HOLE):0;
  314. tns_DrawShape(s,override_color,0,de->PointScale/sca[0]);
  315. if((!ns) || (ishole&&(!nexthole))){ nvgFill(vg); begun=0; }
  316. }
  317. }
  318. if(DrawEdit||so->Mode==TNS_MESH_EDIT_MODE){
  319. for(tnsShape*s=so->Shapes.pFirst;s;s=s->Item.pNext){
  320. tns_DrawShape(s,override_color,DrawEdit?DrawEdit:so->Mode==TNS_MESH_EDIT_MODE,de->PointScale/sca[0]);
  321. }
  322. }
  323. nvgRestore(vg);
  324. }
  325. void tnsDrawShapeObject(tnsEvaluatedInstance* ei, la3DObjectDrawExtra* de){
  326. tnsDrawShapeObjectShapes(ei,de,0,0);
  327. }
  328. void tnsDrawShapeObjectSelectionID(tnsEvaluatedInstance* ei, la3DObjectDrawExtra* de){
  329. int i=ei->InstanceSelectionID; real color[4]={0,0,0,1}; TNS_ID_TO_COLOR(color,i);
  330. tnsDrawShapeObjectShapes(ei,de,color,0);
  331. }
  332. void tnsDrawShapePointsSelectionID(tnsEvaluatedInstance* ei, la3DObjectDrawExtra* de){
  333. tnsDrawShapeObjectShapes(ei,de,0,2);
  334. }
  335. void tnsDrawShapeObjectOverlay(tnsEvaluatedInstance* ei, la3DObjectDrawExtra* de){
  336. int i=ei->InstanceSelectionID; real color[4]; tnsVectorCopy4d(laAccentColor(LA_BT_ACTIVE),color);
  337. if(ei->Object!=ei->Object->InRoot->Active){ color[3]=0.4; }else{ color[3]=0.7; }
  338. tnsDrawShapeObjectShapes(ei,de,color,0);
  339. }
  340. void tnsEvaluateShapeObject(tnsShapeObject* so, tnsEvaluateData* ed){
  341. int DrawTo=TNS_EVAL_LAYER_SOLID;
  342. if(so->Backdrop){ DrawTo=TNS_EVAL_LAYER_BACKDROP; }
  343. tnsAddEvaluatedInstance(ed,so,tnsDrawShapeObject,DrawTo,0,0,0);
  344. if(ed->FillSelectionID){
  345. tnsAddEvaluatedInstance(ed,so,tnsDrawShapeObjectSelectionID,TNS_EVAL_LAYER_SELECTION,0,1,so->Base.SelectID);
  346. }
  347. if(ed->FillOutline && (!ed->OverrideID)){
  348. if((so->Base.Flags&TNS_OBJECT_FLAGS_SELECTED) && (so->Mode!=TNS_MESH_EDIT_MODE)){
  349. tnsAddEvaluatedInstance(ed,so,tnsDrawShapeObjectOverlay,TNS_EVAL_LAYER_OVERLAY,0,0,0);
  350. }
  351. }
  352. }
  353. tnsShapeObject *tnsCreateShapeEmpty(tnsObject *under, char *Name, real AtX, real AtY, real AtZ){
  354. tnsShapeObject *so = memAcquireHyper(sizeof(tnsShapeObject));
  355. tnsInitObjectBase(&so->Base, under, Name, TNS_OBJECT_SHAPE, AtX, AtY, AtZ, 0, 0, 0, 1.0f, TNS_ROTATION_XYZ_EULER, 1.0f);
  356. return so;
  357. }
  358. tnsShapeObject *tnsCreateShapeSquare(tnsObject *under, char *Name, real AtX, real AtY, real AtZ, real size){
  359. tnsShapeObject *so=tnsCreateShapeEmpty(under, Name, AtX, AtY, AtZ);
  360. tnsInitShapeSquare(so, size);
  361. return so;
  362. }
  363. int OPCHK_IsAnyPointSelected(laPropPack *This, laStringSplitor *ss){
  364. if(This && This->EndInstance){
  365. laCanvasExtra* ex=This->EndInstance; laUiItem* ui=ex->ParentUi;
  366. tnsObject*root=ui?ui->PP.EndInstance:0; if(!root) return 0;
  367. if(root->Active->Type!=TNS_OBJECT_SHAPE) return 0;
  368. tnsShapeObject* so=root->Active; return tnsShapeAnySelected(so);
  369. }
  370. return 0;
  371. }
  372. int OPINV_SetPointHandle(laOperator *a, laEvent *e){
  373. laCanvasExtra* ex=a->This->EndInstance; laUiItem* ui=ex->ParentUi;
  374. tnsObject*root=ui?ui->PP.EndInstance:0;
  375. if(!root || !root->Active || root->Active->Type!=TNS_OBJECT_SHAPE) return LA_FINISHED;
  376. tnsShapeObject* so=root->Active; int ran=0;
  377. char* mode=strGetArgumentString(a->ExtraInstructionsP,"mode");
  378. if(!mode){
  379. laEnableOperatorPanel(a,a->This,e->x,e->y,200,200,0,0,0,0,0,0,0,0,e); return LA_RUNNING;
  380. }
  381. int flags=0,HandleFlags=TNS_SPOINT_ALIGNED|TNS_SPOINT_FREE;
  382. if(strSame(mode,"ALIGNED")){ flags=TNS_SPOINT_ALIGNED; }
  383. elif(strSame(mode,"FREE")){ flags=TNS_SPOINT_FREE; }
  384. tnsVector2d pl={0,0},pr={0,0};
  385. for(tnsShape*s=so->Shapes.pFirst;s;s=s->Item.pNext){
  386. for(tnsSPoint*sp=s->Points.pFirst;sp;sp=sp->Item.pNext){ if(!(sp->flags&TNS_MESH_FLAG_SELECTED)) continue;
  387. int oldf=sp->flags&HandleFlags, hasl=0,hasr=0;
  388. sp->flags&=(~HandleFlags); sp->flags|=flags; ran=1; if(!flags){ continue; }
  389. if(sp->Item.pPrev){ tnsVectorSet2v(pl,((tnsSPoint*)sp->Item.pPrev)->p); hasl=1;}
  390. if(sp->Item.pNext){ tnsVectorSet2v(pr,((tnsSPoint*)sp->Item.pNext)->p); hasr=1;}
  391. if(!hasl){
  392. if(!hasr){ tnsVectorSet2(pl,sp->p[0]-0.5,sp->p[1]); tnsVectorSet2(pr,sp->p[0]+0.5,sp->p[1]); }
  393. else{ tnsVectorSet2(pl,-pr[0]+2*sp->p[0],-pr[1]+2*sp->p[1]); }
  394. }else{
  395. if(!hasr){ tnsVectorSet2(pr,-pl[0]+2*sp->p[0],-pl[1]+2*sp->p[1]); }
  396. }
  397. if(flags==TNS_SPOINT_ALIGNED && flags!=oldf){
  398. tnsVector2d diff; tnsVectorMinus2d(diff,pr,pl); tnsVectorMultiSelf2d(diff,0.25);
  399. tnsVectorSet2v(sp->dr,diff); tnsVectorMultiSelf2d(diff,-1); tnsVectorSet2v(sp->dl,diff);
  400. }elif(flags==TNS_SPOINT_FREE && oldf!=TNS_SPOINT_ALIGNED){
  401. tnsVectorMinus2d(sp->dl,pl,sp->p); tnsVectorMultiSelf2d(sp->dl,0.3);
  402. tnsVectorMinus2d(sp->dr,pr,sp->p); tnsVectorMultiSelf2d(sp->dr,0.3);
  403. }
  404. }
  405. }
  406. if(ran){
  407. laRecordInstanceDifferences(so,"tns_shape_object"); laPushDifferences("Set point handle",TNS_HINT_GEOMETRY);
  408. laNotifyUsers("tns.world");
  409. }
  410. return LA_FINISHED;
  411. }
  412. void laui_SetPointHandle(laUiList *uil, laPropPack *pp, laPropPack *actinst, laColumn *extracol, int context){
  413. laColumn* c=laFirstColumn(uil);
  414. laShowItemFull(uil,c,pp,"_this_M_set_point_handle",0,"mode=NONE;text=Normal",0,0);
  415. laShowItemFull(uil,c,pp,"_this_M_set_point_handle",0,"mode=ALIGNED;text=Aligned",0,0);
  416. laShowItemFull(uil,c,pp,"_this_M_set_point_handle",0,"mode=FREE;text=Free",0,0);
  417. }
  418. int OPINV_SetShapeClosed(laOperator *a, laEvent *e){
  419. laCanvasExtra* ex=a->This->EndInstance; laUiItem* ui=ex->ParentUi;
  420. tnsObject*root=ui?ui->PP.EndInstance:0;
  421. if(!root || !root->Active || root->Active->Type!=TNS_OBJECT_SHAPE) return LA_FINISHED;
  422. tnsShapeObject* so=root->Active; int ran=0;
  423. char* mode=strGetArgumentString(a->ExtraInstructionsP,"mode");
  424. char* res=strGetArgumentString(a->ExtraInstructionsP,"reset");
  425. int set=2; if(strSame(mode,"CLOSE")){ set=1; }elif(strSame(mode,"OPEN")){ set=0; }
  426. int reset=0; if(strSame(res,"TRUE")){ reset=1; }
  427. for(tnsShape*s=so->Shapes.pFirst;s;s=s->Item.pNext){
  428. for(tnsSPoint*sp=s->Points.pFirst;sp;sp=sp->Item.pNext){ if(!(sp->flags&TNS_SPOINT_SELECTED)) continue;
  429. if(reset){ tnsShapeSetEndPoint(s,sp); tnsShapeRefreshIndex(so); tnsShapeSetClosed(s,0,0); }
  430. else{ tnsShapeSetClosed(s,set,set==2); } ran=1; break;
  431. }
  432. }
  433. if(ran){
  434. laRecordInstanceDifferences(so,"tns_shape_object"); laPushDifferences("Open/Close shape",TNS_HINT_GEOMETRY);
  435. laNotifyUsers("tns.world");
  436. }
  437. return LA_FINISHED;
  438. }
  439. int OPINV_SetShapeHole(laOperator *a, laEvent *e){
  440. laCanvasExtra* ex=a->This->EndInstance; laUiItem* ui=ex->ParentUi;
  441. tnsObject*root=ui?ui->PP.EndInstance:0;
  442. if(!root || !root->Active || root->Active->Type!=TNS_OBJECT_SHAPE) return LA_FINISHED;
  443. tnsShapeObject* so=root->Active; int ran=0;
  444. char* mode=strGetArgumentString(a->ExtraInstructionsP,"mode");
  445. int set=2; if(strSame(mode,"HOLE")){ set=1; }elif(strSame(mode,"FILL")){ set=0; }
  446. for(tnsShape*s=so->Shapes.pFirst;s;s=s->Item.pNext){
  447. for(tnsSPoint*sp=s->Points.pFirst;sp;sp=sp->Item.pNext){ if(!(sp->flags&TNS_SPOINT_SELECTED)) continue;
  448. tnsShapeSetHole(s,set,set==2); ran=1; break;
  449. }
  450. }
  451. if(ran){
  452. laRecordInstanceDifferences(so,"tns_shape_object"); laPushDifferences("Open/Close shape",TNS_HINT_GEOMETRY);
  453. laNotifyUsers("tns.world");
  454. }
  455. return LA_FINISHED;
  456. }
  457. void la_RegisterShapeOperators(){
  458. laPropContainer *pc; laProp *p;
  459. laOperatorType *at; laEnumProp *ep;
  460. at=laCreateOperatorType("M_set_point_handle", "Set Point Handle", "Set handle type of selected points",OPCHK_IsAnyPointSelected,0,0,OPINV_SetPointHandle,OPMOD_FinishOnData,0,0);
  461. at->UiDefine=laui_SetPointHandle;
  462. at=laCreateOperatorType("M_set_shape_closed", "Set Shape Closed", "Set shape closed or open",OPCHK_IsAnyPointSelected,0,0,OPINV_SetShapeClosed,0,0,0);
  463. at=laCreateOperatorType("M_set_shape_hole", "Set Shape Hole", "Set shape as hole or fill",OPCHK_IsAnyPointSelected,0,0,OPINV_SetShapeHole,0,0,0);
  464. }