NX二次开发源码分享：报告选择尺寸的相关信息

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Dimension* plmhome::select_a_dimension()
9 o9 R* \: I" {{
  m: G" A! D/ L* s9 w' @( {7 P    // ask user to select a label
    UI *ui = UI::GetUI();
+ g/ M0 y; ~6 ]# [, W4 h    Selection *sm = ui->SelectionManager();
5 ~8 ~1 x1 T2 }, a' g3 M    NXMessageBox *mb = ui->NXMessageBox(); // as of NX5
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/ f8 d) }3 Y. d" N- ~" m    NXString message("Select Dimension:");
7 L  D! g5 E3 p( [6 I% ]9 s    NXString title("Select Dimension");
% e9 i8 I! a; m0 N. ~; K    Selection::SelectionScope scope = Selection::SelectionScopeUseDefault;
$ g) m4 {) U* T" Y8 z    Selection::SelectionAction action = Selection::SelectionActionClearAndEnableSpecific;
' @( r1 _- G  h3 }- L& W    bool include_features = 0;
. i$ m1 n* G4 I* R7 `6 a    bool keep_highlighted = 0;
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    // Define the mask triple(s)
7 y9 Q5 y2 ~) E+ B% r    std::vector<Selection::MaskTriple> mask(1);
    mask[0] = Selection::MaskTriple( UF_dimension_type, 0, 0 );
    Point3d cursor;
    TaggedObject *object;

    // Select objects using filter defined by mask triples
    Selection::Response res = sm->SelectTaggedObject(
8 G$ @6 ~- t/ Z4 a( h4 U# G        message, title, scope, action, include_features,
; g8 d* c5 a5 }/ j9 x            keep_highlighted, mask, &object, &cursor );

    if( res == Selection::ResponseObjectSelected )
    {
8 d% l/ s$ A1 l% z        Annotations::Dimension *theDim;
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0 K) ?# t7 m1 _" \        // this doesn't work and 'note' will be a zero pointer, see PR-1850850
; `: A- t, ?$ R; }" h        //note = dynamic_cast<Annotations::PmiNote *>(object);
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        // this works as a workaround
        theDim = (Annotations::Dimension *)(object);
4 O' h. A% u, ]% f' ]$ I% m  b        return theDim;
5 C( A8 r0 t" L! t    }
6 v/ q4 W2 `, N$ H+ K% @- X  d
    return 0;
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5 F3 |& e. A& h6 ?; ?2 Z- qvoid plmhome::do_it()
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    workPart = theSession->Parts()->Work();
! y+ ]: a9 b% E! w- |" V2 U3 b    Part *displayPart = theSession->Parts()->Display();
: V% j) u. ?3 n) V2 [    stringstream out;
+ r5 ?! C8 f) k* M* A    Dimension *theDim = 0;
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, o0 ^. i  z8 C0 s' F2 d5 a, l! f" P. P    NXString tolTypeStrings[] =
0 {; E/ Q: u+ _. `8 {# t0 y    {
        "ToleranceTypeNone",
$ C- u2 Q1 c; u        "ToleranceTypeLimitOneLine",
: z, F5 v; ~5 M, J& D: h        "ToleranceTypeLimitTwoLines",
) b( L7 n4 Q* p3 E5 S8 m& g        "ToleranceTypeBilateralOneLine",
( d+ F4 S- W2 r& G2 W9 f        "ToleranceTypeBilateralTwoLines",
; u3 R' V4 s' [        "ToleranceTypeUnilateralAbove",
! b4 }. t- a0 Z2 r        "ToleranceTypeUnilateralBelow",
6 }8 r- }( w9 U4 |( G        "ToleranceTypeBasic",
. r) {( Z1 Y. M# n+ x        "ToleranceTypeReference",
        "ToleranceTypeLimitLargerFirst",
        "ToleranceTypeLimitLargerBelow",
        "ToleranceTypeLimitsAndFits",
        "ToleranceTypeNotToScale",
        "ToleranceTypeDiameterReference",
6 k  X5 I! g. X3 I$ O, H% u9 L        "ToleranceTypeBasicNotToScale"
    };
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    while( (theDim=select_a_dimension()) != 0 )
/ F1 Z; j7 h% S+ w# \* _    {
        out.str(""); out.clear();
9 K1 k* i/ t+ X        if(! lw->IsOpen() ) lw->Open();
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        out << "Selected Object: " << theDim->Tag() << endl;
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9 y' |# U2 q! X; G! C, t        std::vector<NXString> mainTextLines;
* o4 m6 B# h0 }; @: X        std::vector<NXString> dualTextLines;
        theDim->GetDimensionText(mainTextLines, dualTextLines);
1 k5 x/ [3 a% x* j; S9 Z9 Z7 p; m        for( int ii=0; ii<mainTextLines.size(); ii++)
' m6 Z4 x: J7 v4 o7 d9 T            out << " MainTextLine: " << mainTextLines[ii].GetText() << endl;
        for( int ii=0; ii<dualTextLines.size(); ii++)
            out << " DualTextLine: " << dualTextLines[ii].GetText() << endl;
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        bool refFlag = theDim->ReferenceDimensionFlag();
, I+ t8 D/ j8 q        out << " ReferenceDimensionFlag: " << refFlag << endl;
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        int tolType = (int) theDim->ToleranceType();
) ^& U  U, [( r0 |) O        out << " ToleranceType: " << tolTypeStrings[tolType].GetText() << endl;

* b, N* m. w6 ^' m: ~$ @- ?; G; q; |1 P        ComponentData *theData = displayPart->Annotations()->CreateComponentData(theDim);
8 q# a* o% q5 [$ j        std::vector<TexTComponent*> textComps = theData->GetTextComponents();
/ c% n5 S6 [9 g- Y* _# N* k) B        for( int ii=0; ii<textComps.size(); ii++)
        {
            std::vector<NXString> compText = textComps[ii]->GetText();
; d! X, e5 U+ A            for( int jj=0; jj<compText.size(); jj++ )
) b9 n- ?( Y0 q6 X3 k( @. i& M                out << " Component Text: " << compText[jj].GetText() << endl;
        }
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        int subtype;
        double origin[3];
        UF_DRF_dim_info_t *info;
8 U( V& O1 Q1 U5 L9 @: ~* u        UF_CALL(UF_DRF_ask_dim_info(theDim->Tag(), &subtype, origin, &info));
( G% E/ G" {2 R        for (int ii = 0; ii<info->num_text; ii++)
            if (info->text_info[ii].text_type == UF_DRF_DIM_TEXT)
                for (int jj = 0; jj < info->text_info[ii].num_lines; jj++)
% \8 A: D. M' g- {                    out << " UF_DRF_ask_dim_info Text: " << info->text_info[ii].text[jj].string << endl;
& J1 ~1 Q3 r3 J+ }        UF_CALL(UF_DRF_free_dimension(&info));

8 g( J& X$ |. c" N0 J        lw->WriteLine(out.str().c_str());

4 U; V  y, d; j3 v+ p; T+ I    } // while
}
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