void SumFunc::execute() { ComValue vallist(stack_arg(0)); reset_stack(); if (vallist.is_type(ComValue::ArrayType)) { AttributeValueList* avl = vallist.array_val(); AddFunc addfunc(comterp()); push_stack(ComValue::zeroval()); Iterator it; int count = 0; for (avl->First(it); !avl->Done(it); avl->Next(it)) { count++; push_stack(*avl->GetAttrVal(it)); addfunc.exec(2,0); } if (_meanfunc) { DivFunc divfunc(comterp()); ComValue divisor(count, ComValue::IntType); push_stack(divisor); divfunc.exec(2,0); } } else { push_stack(vallist); } }
void JoinStrFunc::execute() { ComValue listv(stack_arg(0)); static int sym_symid = symbol_add("sym"); ComValue symflagv(stack_key(sym_symid)); boolean symflag = symflagv.is_true(); reset_stack(); if (listv.is_array()) { AttributeValueList* avl = listv.array_val(); if (avl) { char cbuf[avl->Number()+1]; Iterator i; int cnt=0; for (avl->First(i); !avl->Done(i); avl->Next(i)) { cbuf[cnt] = avl->GetAttrVal(i)->char_val(); cnt++; } cbuf[cnt] = '\0'; ComValue retval(symbol_add(cbuf), symflag ? ComValue::SymbolType : ComValue::StringType); push_stack(retval); return; } } push_stack(ComValue::nullval()); }
Transformer* CreateGraphicFunc::get_transformer(AttributeList* al) { static int transform_symid = symbol_add("transform"); AttributeValue* transformv = nil; Transformer* rel = nil; AttributeValueList* avl = nil; if (al && (transformv=al->find(transform_symid)) && transformv->is_array() && (avl=transformv->array_val()) && avl->Number()==6) { float a00, a01, a10, a11, a20, a21; Iterator it; avl->First(it); a00=avl->GetAttrVal(it)->float_val(); avl->Next(it); a01=avl->GetAttrVal(it)->float_val(); avl->Next(it); a10=avl->GetAttrVal(it)->float_val(); avl->Next(it); a11=avl->GetAttrVal(it)->float_val(); avl->Next(it); a20=avl->GetAttrVal(it)->float_val(); avl->Next(it); a21=avl->GetAttrVal(it)->float_val(); rel = new Transformer(a00, a01, a10, a11, a20, a21); } else { rel = ((OverlayViewer*)_ed->GetViewer())->GetRel(); if (rel != nil) { rel = new Transformer(rel); rel->Invert(); } } return rel; }
void CreateOpenSplineFunc::execute() { ComValue& vect = stack_arg(0); if (!vect.is_type(ComValue::ArrayType) || vect.array_len()==0) { reset_stack(); push_stack(ComValue::nullval()); return; } const int len = vect.array_len(); const int npts = len/2; int x[npts]; int y[npts]; ALIterator i; AttributeValueList* avl = vect.array_val(); avl->First(i); for (int j=0; j<npts && !avl->Done(i); j++) { x[j] = avl->GetAttrVal(i)->int_val(); avl->Next(i); y[j] = avl->GetAttrVal(i)->int_val(); avl->Next(i); } AttributeList* al = stack_keys(); Resource::ref(al); reset_stack(); PasteCmd* cmd = nil; if (npts) { BrushVar* brVar = (BrushVar*) _ed->GetState("BrushVar"); PatternVar* patVar = (PatternVar*) _ed->GetState("PatternVar"); ColorVar* colVar = (ColorVar*) _ed->GetState("ColorVar"); Transformer* rel = get_transformer(al); ArrowVar* aVar = (ArrowVar*) _ed->GetState("ArrowVar"); ArrowOpenBSpline* openspline = new ArrowOpenBSpline(x, y, npts, aVar->Head(), aVar->Tail(), _ed->GetViewer()->GetMagnification(), stdgraphic); if (brVar != nil) openspline->SetBrush(brVar->GetBrush()); if (patVar != nil) openspline->SetPattern(patVar->GetPattern()); if (colVar != nil) { openspline->FillBg(!colVar->GetBgColor()->None()); openspline->SetColors(colVar->GetFgColor(), colVar->GetBgColor()); } openspline->SetTransformer(rel); Unref(rel); ArrowSplineOvComp* comp = new ArrowSplineOvComp(openspline); comp->SetAttributeList(al); if (PasteModeFunc::paste_mode()==0) cmd = new PasteCmd(_ed, new Clipboard(comp)); ComValue compval(new OverlayViewRef(comp), symbol_add("ArrowSplineComp")); push_stack(compval); execute_log(cmd); } else push_stack(ComValue::nullval()); Unref(al); }
void TransformerFunc::execute() { ComValue objv(stack_arg(0)); ComValue transv(stack_arg(0)); reset_stack(); if (objv.object_compview()) { ComponentView* compview = (ComponentView*)objv.obj_val(); if (compview && compview->GetSubject()) { OverlayComp* comp = (OverlayComp*)compview->GetSubject(); Graphic* gr = comp->GetGraphic(); if (gr) { Transformer* trans = gr->GetTransformer(); if (transv.is_unknown() || !transv.is_array() || transv.array_val()->Number()!=6) { AttributeValueList* avl = new AttributeValueList(); float a00, a01, a10, a11, a20, a21; trans->matrix(a00, a01, a10, a11, a20, a21); avl->Append(new AttributeValue(a00)); avl->Append(new AttributeValue(a01)); avl->Append(new AttributeValue(a10)); avl->Append(new AttributeValue(a11)); avl->Append(new AttributeValue(a20)); avl->Append(new AttributeValue(a21)); ComValue retval(avl); push_stack(retval); } else { float a00, a01, a10, a11, a20, a21; AttributeValueList* avl = transv.array_val(); Iterator it; AttributeValue* av; avl->First(it); av = avl->GetAttrVal(it); a00 = av->float_val(); avl->Next(it); av = avl->GetAttrVal(it); a01 = av->float_val(); avl->Next(it); av = avl->GetAttrVal(it); a10 = av->float_val(); avl->Next(it); av = avl->GetAttrVal(it); a11 = av->float_val(); avl->Next(it); av = avl->GetAttrVal(it); a20 = av->float_val(); avl->Next(it); av = avl->GetAttrVal(it); a21 = av->float_val(); Transformer t(a00, a01, a10, a11, a20, a21); *gr->GetTransformer()=t; ComValue compval(new OverlayViewRef(comp), comp->class_symid()); push_stack(compval); } } } } }
void CreateLineFunc::execute() { const int x0 = 0; const int y0 = 1; const int x1 = 2; const int y1 = 3; const int n = 4; int coords[n]; ComValue& vect = stack_arg(0); if (!vect.is_type(ComValue::ArrayType) || vect.array_len() != n) { reset_stack(); push_stack(ComValue::nullval()); return; } ALIterator i; AttributeValueList* avl = vect.array_val(); avl->First(i); for (int j=0; j<n && !avl->Done(i); j++) { coords[j] = avl->GetAttrVal(i)->int_val(); avl->Next(i); } AttributeList* al = stack_keys(); Resource::ref(al); reset_stack(); PasteCmd* cmd = nil; if (coords[x0] != coords[x1] || coords[y0] != coords[y1]) { BrushVar* brVar = (BrushVar*) _ed->GetState("BrushVar"); PatternVar* patVar = (PatternVar*) _ed->GetState("PatternVar"); ColorVar* colVar = (ColorVar*) _ed->GetState("ColorVar"); Transformer* rel = get_transformer(al); ArrowVar* aVar = (ArrowVar*) _ed->GetState("ArrowVar"); ArrowLine* line = new ArrowLine(coords[x0], coords[y0], coords[x1], coords[y1], aVar->Head(), aVar->Tail(), _ed->GetViewer()->GetMagnification(), stdgraphic); if (brVar != nil) line->SetBrush(brVar->GetBrush()); if (colVar != nil) { line->FillBg(!colVar->GetBgColor()->None()); line->SetColors(colVar->GetFgColor(), colVar->GetBgColor()); } line->SetTransformer(rel); Unref(rel); ArrowLineOvComp* comp = new ArrowLineOvComp(line); comp->SetAttributeList(al); if (PasteModeFunc::paste_mode()==0) cmd = new PasteCmd(_ed, new Clipboard(comp)); ComValue compval(new OverlayViewRef(comp), symbol_add("ArrowLineComp")); push_stack(compval); execute_log(cmd); } else push_stack(ComValue::nullval()); Unref(al); }
void CreateTextFunc::execute() { const int x0 = 0; const int y0 = 1; const int n = 2; int args[n]; ComValue& vect = stack_arg(0); ComValue& txtv = stack_arg(1); if (!vect.is_type(ComValue::ArrayType) || vect.array_len() != n) { reset_stack(); push_stack(ComValue::nullval()); return; } ALIterator i; AttributeValueList* avl = vect.array_val(); avl->First(i); for (int j=0; j<n && !avl->Done(i); j++) { args[j] = avl->GetAttrVal(i)->int_val(); avl->Next(i); } const char* txt = symbol_pntr( txtv.symbol_ref() ); AttributeList* al = stack_keys(); Resource::ref(al); reset_stack(); PasteCmd* cmd = nil; if (txt) { ColorVar* colVar = (ColorVar*) _ed->GetState("ColorVar"); FontVar* fntVar = (FontVar*) _ed->GetState("FontVar"); Transformer* rel = get_transformer(al); TextGraphic* text = new TextGraphic(txt, stdgraphic); if (colVar != nil) { text->FillBg(!colVar->GetBgColor()->None()); text->SetColors(colVar->GetFgColor(), colVar->GetBgColor()); } if (fntVar != nil) text->SetFont(fntVar->GetFont()); text->SetTransformer(new Transformer()); text->Translate(args[x0], args[y0]); text->GetTransformer()->postmultiply(rel); Unref(rel); TextOvComp* comp = new TextOvComp(text); comp->SetAttributeList(al); if (PasteModeFunc::paste_mode()==0) cmd = new PasteCmd(_ed, new Clipboard(comp)); ComValue compval(new OverlayViewRef(comp), symbol_add("TextComp")); push_stack(compval); execute_log(cmd); } else push_stack(ComValue::nullval()); Unref(al); }
void CreateEllipseFunc::execute() { const int x0 = 0; const int y0 = 1; const int r1 = 2; const int r2 = 3; const int n = 4; int args[n]; ComValue& vect = stack_arg(0); if (!vect.is_type(ComValue::ArrayType) || vect.array_len() != n) { reset_stack(); push_stack(ComValue::nullval()); return; } ALIterator i; AttributeValueList* avl = vect.array_val(); avl->First(i); for (int j=0; j<n && !avl->Done(i); j++) { args[j] = avl->GetAttrVal(i)->int_val(); avl->Next(i); } AttributeList* al = stack_keys(); Resource::ref(al); reset_stack(); PasteCmd* cmd = nil; if (args[r1] > 0 && args[r2] > 0) { BrushVar* brVar = (BrushVar*) _ed->GetState("BrushVar"); PatternVar* patVar = (PatternVar*) _ed->GetState("PatternVar"); ColorVar* colVar = (ColorVar*) _ed->GetState("ColorVar"); Transformer* rel = get_transformer(al); SF_Ellipse* ellipse = new SF_Ellipse(args[x0], args[y0], args[r1], args[r2], stdgraphic); if (brVar != nil) ellipse->SetBrush(brVar->GetBrush()); if (patVar != nil) ellipse->SetPattern(patVar->GetPattern()); if (colVar != nil) { ellipse->FillBg(!colVar->GetBgColor()->None()); ellipse->SetColors(colVar->GetFgColor(), colVar->GetBgColor()); } ellipse->SetTransformer(rel); Unref(rel); EllipseOvComp* comp = new EllipseOvComp(ellipse); comp->SetAttributeList(al); if (PasteModeFunc::paste_mode()==0) cmd = new PasteCmd(_ed, new Clipboard(comp)); ComValue compval( new OverlayViewRef(comp), symbol_add("EllipseComp")); push_stack(compval); execute_log(cmd); } else push_stack(ComValue::nullval()); Unref(al); }
void PrintFunc::execute() { ComValue formatstr(stack_arg(0)); ComValue printval(stack_arg(1)); static int str_symid = symbol_add("str"); ComValue strflag(stack_key(str_symid)); static int string_symid = symbol_add("string"); ComValue stringflag(stack_key(string_symid)); static int sym_symid = symbol_add("sym"); ComValue symflag(stack_key(sym_symid)); static int symbol_symid = symbol_add("symbol"); ComValue symbolflag(stack_key(symbol_symid)); static int err_symid = symbol_add("err"); ComValue errflag(stack_key(err_symid)); reset_stack(); const char* fstr = formatstr.is_string() ? formatstr.string_ptr() : "nil"; ComValue::comterp(comterp()); #if __GNUC__<3 streambuf* strmbuf = nil; if (stringflag.is_false() && strflag.is_false() && symbolflag.is_false() && symflag.is_false()) { filebuf * fbuf = new filebuf(); strmbuf = fbuf; if (comterp()->handler()) { int fd = Math::max(1, comterp()->handler()->get_handle()); fbuf->attach(fd); } else fbuf->attach(fileno(errflag.is_false() ? stdout : stderr)); } else { strmbuf = new std::strstreambuf(); } #else streambuf* strmbuf = nil; if (stringflag.is_false() && strflag.is_false() && symbolflag.is_false() && symflag.is_false()) { fileptr_filebuf * fbuf = nil; if (comterp()->handler()) { fbuf = new fileptr_filebuf(comterp()->handler() && comterp()->handler()->wrfptr() ? comterp()->handler()->wrfptr() : stdout, ios_base::out); } else fbuf = new fileptr_filebuf(errflag.is_false() ? stdout : stderr, ios_base::out); strmbuf = fbuf; } else strmbuf = new std::strstreambuf(); #endif ostream out(strmbuf); int narg = nargs(); if (narg==1) { if (formatstr.is_string()) out << formatstr.symbol_ptr(); else out << formatstr; // which could be arbitrary ComValue } else { switch( printval.type() ) { case ComValue::SymbolType: case ComValue::StringType: out_form(out, fstr, symbol_pntr( printval.symbol_ref())); break; case ComValue::BooleanType: out_form(out, fstr, printval.boolean_ref()); break; case ComValue::CharType: out_form(out, fstr, printval.char_ref()); break; case ComValue::UCharType: out_form(out, fstr, printval.uchar_ref()); break; case ComValue::IntType: out_form(out, fstr, printval.int_ref()); break; case ComValue::UIntType: out_form(out, fstr, printval.uint_ref()); break; case ComValue::LongType: out_form(out, fstr, printval.long_ref()); break; case ComValue::ULongType: out_form(out, fstr, printval.ulong_ref()); break; case ComValue::FloatType: out_form(out, fstr, printval.float_ref()); break; case ComValue::DoubleType: out_form(out, fstr, printval.double_ref()); break; case ComValue::ArrayType: { ALIterator i; AttributeValueList* avl = printval.array_val(); avl->First(i); boolean first = true; while (!avl->Done(i)) { ComValue val(*avl->GetAttrVal(i)); push_stack(formatstr); push_stack(val); exec(2,0); avl->Next(i); if (!avl->Done(i)) out << "\n"; } } break; case ComValue::BlankType: out << "<blank>"; break; case ComValue::UnknownType: out_form(out, fstr, nil); break; default: break; } } if (stringflag.is_true() || strflag.is_true()) { out << '\0'; ComValue retval(((std::strstreambuf*)strmbuf)->str()); push_stack(retval); } else if (symbolflag.is_true() || symflag.is_true()) { out << '\0'; int symbol_id = symbol_add(((std::strstreambuf*)strmbuf)->str()); ComValue retval(symbol_id, ComValue::SymbolType); push_stack(retval); } delete strmbuf; }
ostream& operator<< (ostream& out, const AttributeValue& sv) { AttributeValue* svp = (AttributeValue*)&sv; char* title; char* symbol; int counter; #if 0 switch( svp->type() ) { case AttributeValue::KeywordType: out << "Keyword (" << symbol_pntr( svp->symbol_ref() ) << ")"; break; case AttributeValue::CommandType: title = "Command ("; symbol = symbol_pntr( svp->symbol_ref() ); out << title << symbol; counter = strlen(title) + strlen(symbol); while( ++counter < 32 ) out << ' '; out << ")"; break; case AttributeValue::SymbolType: out << "symbol (" << svp->symbol_ptr() << ")"; break; case AttributeValue::StringType: out << "string (" << svp->string_ptr() << ")"; break; case AttributeValue::BooleanType: out << "boolean (" << svp->boolean_ref() << ")"; break; case AttributeValue::CharType: out << "char (" << svp->char_ref() << ":" << (int)svp->char_ref() << ")"; break; case AttributeValue::UCharType: out << "uchar (" << svp->char_ref() << ":" << (int)svp->char_ref() << ")"; break; case AttributeValue::IntType: out << "int (" << svp->int_ref() << ")"; break; case AttributeValue::UIntType: if (svp->state()==AttributeValue::OctState) out << "uint (" << svp->uint_ref() << ")"; else if (svp->state()==AttributeValue::HexState) out << "uint (" << svp->uint_ref() << ")"; else out << "uint (" << svp->uint_ref() << ")"; break; case AttributeValue::LongType: out << "Long (" << svp->long_ref() << ")"; break; case AttributeValue::ULongType: out << "ulong (" << svp->ulong_ref() << ")"; break; case AttributeValue::FloatType: out << "float (" << svp->float_ref() << ")"; break; case AttributeValue::DoubleType: out << "double (" << svp->double_ref() << ")"; //printf("%9.2f\n", svp->double_ref()); break; case AttributeValue::EofType: out << "eof"; break; case AttributeValue::ArrayType: { out << "list of length " << svp->array_len(); ALIterator i; AttributeValueList* avl = svp->array_val(); avl->First(i); boolean first = true; while (!avl->Done(i)) { out << "\n\t" << *avl->GetAttrVal(i); avl->Next(i); } } break; case AttributeValue::BlankType: break; default: break; } #else switch(svp->type()) { case AttributeValue::KeywordType: out << "Keyword (" << symbol_pntr( svp->symbol_ref() ) << ")"; break; case AttributeValue::CommandType: title = "Command ("; symbol = symbol_pntr( svp->symbol_ref() ); out << title << symbol; counter = strlen(title) + strlen(symbol); while( ++counter < 32 ) out << ' '; out << ")"; break; case AttributeValue::SymbolType: out << svp->symbol_ptr(); break; case AttributeValue::StringType: out << "\"" << svp->string_ptr() << "\""; break; case AttributeValue::CharType: out << svp->char_ref(); break; case AttributeValue::UCharType: out << svp->char_ref(); break; case AttributeValue::IntType: out << svp->int_ref(); break; case AttributeValue::UIntType: if (svp->state()==AttributeValue::OctState) out << "0" << std::oct << svp->uint_ref() << std::dec; else if (svp->state()==AttributeValue::HexState) out << "0x" << std::hex << svp->uint_ref() << std::dec; else out << svp->uint_ref(); break; case AttributeValue::BooleanType: out << svp->uint_ref(); break; case AttributeValue::ShortType: out << svp->short_ref(); break; case AttributeValue::UShortType: if (svp->state()==AttributeValue::OctState) out << "0" << std::oct << svp->ushort_ref() << std::dec; else if (svp->state()==AttributeValue::HexState) out << "0x" << std::hex << svp->ushort_ref() << std::dec; else out << svp->ushort_ref(); break; case AttributeValue::LongType: out << svp->long_ref(); break; case AttributeValue::ULongType: if (svp->state()==AttributeValue::OctState) out << "0" << std::oct << svp->ulong_ref() << std::dec; else if (svp->state()==AttributeValue::HexState) out << "0x" << std::hex << svp->ulong_ref() << std::dec; else out << svp->ulong_ref(); break; case AttributeValue::FloatType: #if __GNUG__<3 out.form("%.6f", svp->float_val()); #else { const int bufsiz=256; char buffer[bufsiz]; snprintf(buffer, bufsiz, "%.6f", svp->float_val()); out << buffer; } #endif break; case AttributeValue::DoubleType: #if __GNUG__<3 out.form("%.6f", svp->double_val()); #else { const int bufsiz=256; char buffer[bufsiz]; snprintf(buffer, bufsiz, "%.6f", svp->double_val()); out << buffer; } #endif break; case AttributeValue::EofType: out << "eof"; break; case AttributeValue::ArrayType: { //out << "array of length " << svp->array_len(); ALIterator i; AttributeValueList* avl = svp->array_val(); avl->First(i); boolean first = true; while (!avl->Done(i)) { if (!first) out << ","; out << *avl->GetAttrVal(i); avl->Next(i); first = false; } } break; case AttributeValue::BlankType: break; case AttributeValue::ObjectType: out << "<" << symbol_pntr(svp->class_symid()) << ">"; break; case AttributeValue::StreamType: out << "<stream:" << svp->stream_mode() << ">"; break; default: out << "nil"; break; } #endif return out; }
void VarFunc::execute() { ComValue vallist(stack_arg(0)); reset_stack(); if (vallist.is_type(ComValue::ArrayType)) { AttributeValueList* avl = vallist.array_val(); AddFunc addfunc(comterp()); MpyFunc mpyfunc(comterp()); ComValue sqrsumval(ComValue::zeroval()); ComValue sumval(ComValue::zeroval()); ComValue mnsquaresval; Iterator it; int count = 0; for (avl->First(it); !avl->Done(it); avl->Next(it)) { count++; /* square value and add to sum of squares */ push_stack(*avl->GetAttrVal(it)); push_stack(*avl->GetAttrVal(it)); mpyfunc.exec(2,0); push_stack(sqrsumval); addfunc.exec(2,0); sqrsumval = comterp()->pop_stack(); /* add value to running sum */ push_stack(sumval); push_stack(*avl->GetAttrVal(it)); addfunc.exec(2,0); sumval = comterp()->pop_stack(); } /* compute mean of squares */ DivFunc divfunc(comterp()); push_stack(sqrsumval); ComValue countval((float)count); push_stack(countval); divfunc.exec(2,0); mnsquaresval = comterp()->pop_stack(); /* compute mean squared */ push_stack(sumval); push_stack(countval); divfunc.exec(2,0); ComValue meanval(comterp()->pop_stack()); push_stack(meanval); push_stack(meanval); mpyfunc.exec(2,0); ComValue mnsquaredval(comterp()->pop_stack()); /* subract mean squared from sum of squares to get variance */ SubFunc subfunc(comterp()); push_stack(mnsquaresval); push_stack(mnsquaredval); subfunc.exec(2,0); /* compute standard deviation if StdDevFunc */ if (_stddevfunc) { SqrtFunc sqrtfunc(comterp()); sqrtfunc.exec(1,0); } } else { push_stack(ComValue::zeroval()); } }
void SelectFunc::execute() { static int all_symid = symbol_add("all"); ComValue all_flagv(stack_key(all_symid)); boolean all_flag = all_flagv.is_true(); static int clear_symid = symbol_add("clear"); ComValue clear_flagv(stack_key(clear_symid)); boolean clear_flag = clear_flagv.is_true(); Selection* sel = _ed->GetViewer()->GetSelection(); if (clear_flag) { sel->Clear(); unidraw->Update(); reset_stack(); return; } OverlaySelection* newSel = ((OverlayEditor*)_ed)->overlay_kit()->MakeSelection(); Viewer* viewer = _ed->GetViewer(); AttributeValueList* avl = new AttributeValueList(); if (all_flag) { GraphicView* gv = ((OverlayEditor*)_ed)->GetFrame(); Iterator i; int count=0; for (gv->First(i); !gv->Done(i); gv->Next(i)) { GraphicView* subgv = gv->GetView(i); newSel->Append(subgv); OverlayComp* comp = (OverlayComp*)subgv->GetGraphicComp(); ComValue* compval = new ComValue(new OverlayViewRef(comp), comp->classid()); avl->Append(compval); } } else if (nargs()==0) { Iterator i; int count=0; for (sel->First(i); !sel->Done(i); sel->Next(i)) { GraphicView* grview = sel->GetView(i); OverlayComp* comp = grview ? (OverlayComp*)grview->GetSubject() : nil; ComValue* compval = comp ? new ComValue(new OverlayViewRef(comp), comp->classid()) : nil; if (compval) { avl->Append(compval); } delete newSel; newSel = nil; } } else { for (int i=0; i<nargsfixed(); i++) { ComValue& obj = stack_arg(i); if (obj.object_compview()) { ComponentView* comview = (ComponentView*)obj.obj_val(); OverlayComp* comp = (OverlayComp*)comview->GetSubject(); if (comp) { GraphicView* view = comp->FindView(viewer); if (view) { newSel->Append(view); ComValue* compval = new ComValue(new OverlayViewRef(comp), comp->classid()); avl->Append(compval); } } } else if (obj.is_array()) { Iterator it; AttributeValueList* al = obj.array_val(); al->First(it); while (!al->Done(it)) { if (al->GetAttrVal(it)->object_compview()) { ComponentView* comview = (ComponentView*)al->GetAttrVal(it)->obj_val(); OverlayComp* comp = (OverlayComp*)comview->GetSubject(); if (comp) { GraphicView* view = comp->FindView(viewer); if (view) { newSel->Append(view); ComValue* compval = new ComValue(new OverlayViewRef(comp), comp->classid()); avl->Append(compval); } } } al->Next(it); } } } } if (newSel){ sel->Clear(); delete sel; _ed->SetSelection(newSel); newSel->Update(viewer); unidraw->Update(); } reset_stack(); ComValue retval(avl); push_stack(retval); }
void CreateRasterFunc::execute() { const int x0 = 0; const int y0 = 1; const int x1 = 2; const int y1 = 3; const int n = 4; int coords[n]; ComValue& vect = stack_arg(0); if (!vect.is_type(ComValue::ArrayType) || vect.array_len() != n) { reset_stack(); push_stack(ComValue::nullval()); return; } ALIterator i; AttributeValueList* avl = vect.array_val(); avl->First(i); for (int j=0; j<n && !avl->Done(i); j++) { coords[j] = avl->GetAttrVal(i)->int_val(); avl->Next(i); } AttributeList* al = stack_keys(); Resource::ref(al); reset_stack(); PasteCmd* cmd = nil; if (coords[x0] != coords[x1] || coords[y0] != coords[y1]) { float dcoords[n]; ((OverlayViewer*)GetEditor()->GetViewer())->ScreenToDrawing (coords[x0], coords[y0], dcoords[x0], dcoords[y0]); ((OverlayViewer*)GetEditor()->GetViewer())->ScreenToDrawing (coords[x1], coords[y1], dcoords[x1], dcoords[y1]); OverlayRaster* raster = new OverlayRaster((int)(dcoords[x1]-dcoords[x0]+1), (int)(dcoords[y1]-dcoords[y0]+1), 2 /* initialize with border of 2 */); OverlayRasterRect* rasterrect = new OverlayRasterRect(raster, stdgraphic); #if 1 Transformer* t = new Transformer(); t->Translate(dcoords[x0], dcoords[y0]); rasterrect->SetTransformer(t); Unref(t); #else Transformer* rel = get_transformer(al); #endif RasterOvComp* comp = new RasterOvComp(rasterrect); comp->SetAttributeList(al); if (PasteModeFunc::paste_mode()==0) cmd = new PasteCmd(_ed, new Clipboard(comp)); ComValue compval(new OverlayViewRef(comp), symbol_add("RasterComp")); push_stack(compval); execute_log(cmd); } else push_stack(ComValue::nullval()); Unref(al); }
void PrintFunc::execute() { ComValue formatstr(stack_arg(0)); static int str_symid = symbol_add("str"); ComValue strflag(stack_key(str_symid)); static int string_symid = symbol_add("string"); ComValue stringflag(stack_key(string_symid)); static int sym_symid = symbol_add("sym"); ComValue symflag(stack_key(sym_symid)); static int symbol_symid = symbol_add("symbol"); ComValue symbolflag(stack_key(symbol_symid)); static int err_symid = symbol_add("err"); ComValue errflag(stack_key(err_symid)); static int out_symid = symbol_add("out"); ComValue outflag(stack_key(out_symid)); static int file_symid = symbol_add("file"); ComValue fileobjv(stack_key(file_symid)); static int prefix_symid = symbol_add("prefix"); ComValue prefixv(stack_key(prefix_symid)); const char* fstr = formatstr.is_string() ? formatstr.string_ptr() : "nil"; ComValue::comterp(comterp()); streambuf* strmbuf = nil; if (stringflag.is_false() && strflag.is_false() && symbolflag.is_false() && symflag.is_false()) { if (comterp()->handler() && fileobjv.is_unknown() && errflag.is_false() && outflag.is_false()) { FILEBUFP(fbuf, comterp()->handler() && comterp()->handler()->wrfptr() ? comterp()->handler()->wrfptr() : stdout, ios_base::out); strmbuf = fbuf; } else if (fileobjv.is_known()) { FileObj *fileobj = (FileObj*)fileobjv.geta(FileObj::class_symid()); if (fileobj) { FILEBUFP(fbuf, fileobj->fptr(), ios_base::out); strmbuf = fbuf; } else { PipeObj *pipeobj = (PipeObj*)fileobjv.geta(PipeObj::class_symid()); FILEBUFP(fbuf, pipeobj ? pipeobj->wrfptr() : stdout, ios_base::out); strmbuf = fbuf; } } else { FILEBUFP(fbuf, errflag.is_false() ? stdout : stderr, ios_base::out); strmbuf = fbuf; } } else strmbuf = new std::strstreambuf(); ostream out(strmbuf); int narg = nargsfixed(); if (narg==1) { if (formatstr.is_string() && !prefixv.is_string()) { out << formatstr.symbol_ptr(); out.flush(); } else { if (prefixv.is_string()) out << prefixv.symbol_ptr(); out << formatstr; // which could be arbitrary ComValue if (prefixv.is_string()) out << "\n"; } } else { const char* fstrptr = fstr; int curr=1; while (curr<narg) { char fbuf[BUFSIZ]; ComValue printval(stack_arg(curr)); curr++; int i=0; if(curr<narg) { int flen; while(*fstrptr && !(flen=format_extent(fstrptr)) && i<BUFSIZ-1) fbuf[i++] = *fstrptr++; if(*fstrptr && flen+i<BUFSIZ-1) { strncpy(fbuf+i, fstrptr, flen); i += flen; fstrptr += flen; } while(*fstrptr && !format_extent(fstrptr) && i<BUFSIZ-1) fbuf[i++] = *fstrptr++; fbuf[i] = '\0'; } else strncpy(fbuf, fstrptr, BUFSIZ); switch( printval.type() ) { case ComValue::SymbolType: case ComValue::StringType: out_form(out, fbuf, symbol_pntr( printval.symbol_ref())); break; case ComValue::BooleanType: out_form(out, fbuf, printval.boolean_ref()); break; case ComValue::CharType: out_form(out, fbuf, printval.char_ref()); break; case ComValue::UCharType: out_form(out, fbuf, printval.uchar_ref()); break; case ComValue::IntType: out_form(out, fbuf, printval.int_ref()); break; case ComValue::UIntType: out_form(out, fbuf, printval.uint_ref()); break; case ComValue::LongType: out_form(out, fbuf, printval.long_ref()); break; case ComValue::ULongType: out_form(out, fbuf, printval.ulong_ref()); break; case ComValue::FloatType: out_form(out, fbuf, printval.float_ref()); break; case ComValue::DoubleType: out_form(out, fbuf, printval.double_ref()); break; case ComValue::ArrayType: { ALIterator i; AttributeValueList* avl = printval.array_val(); avl->First(i); boolean first = true; while (!avl->Done(i)) { ComValue val(*avl->GetAttrVal(i)); push_stack(formatstr); push_stack(val); exec(2,0); avl->Next(i); if (!avl->Done(i)) out << "\n"; } } break; case ComValue::BlankType: out << "<blank>"; break; case ComValue::UnknownType: out_form(out, fbuf, nil); break; case ComValue::ObjectType: out_form(out, fbuf, symbol_pntr(printval.class_symid())); break; default: break; } } } reset_stack(); if (stringflag.is_true() || strflag.is_true()) { out << '\0'; ComValue retval(((std::strstreambuf*)strmbuf)->str()); push_stack(retval); } else if (symbolflag.is_true() || symflag.is_true()) { out << '\0'; int symbol_id = symbol_add(((std::strstreambuf*)strmbuf)->str()); ComValue retval(symbol_id, ComValue::SymbolType); push_stack(retval); } else { out.flush(); push_stack(ComValue::blankval()); } delete strmbuf; }