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Added Polygon drawing but huge perf issue, to be solved.
jeandet -
r14:72560b13551a default
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1 /*------------------------------------------------------------------------------
2 -- This file is a part of the Kicad Tools Software
3 -- Copyright (C) 2015, Plasma Physics Laboratory - CNRS
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 2 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, write to the Free Software
17 -- Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
18 -------------------------------------------------------------------------------*/
19 /*-- Author : Alexis Jeandet
20 -- Mail : alexis.jeandet@member.fsf.org
21 ----------------------------------------------------------------------------*/
22 #include "pcbzone.h"
23 #include <QPen>
24 #include <QPixmapCache>
25
26 PCBZone::PCBZone(QIlib::QIcadPcbZone *zoneNode, PCBContext *context)
27 :QGraphicsItemGroup(),zoneNode(zoneNode),context(context)
28 {
29 this->init();
30 }
31
32 void PCBZone::init()
33 {
34 this->setFlags(ItemIsMovable|ItemIsSelectable|ItemIsFocusable);
35 QPolygonF poly;
36 for(int i=0;i<this->zoneNode->filledPolygon.points.points.count();i++)
37 {
38 poly.append(this->zoneNode->filledPolygon.points.points.at(i)->pos());
39 }
40 QGraphicsPixmapItem* test=new QGraphicsPixmapItem();
41 QPixmap pix;
42 QPainter painter;
43 QGraphicsPolygonItem* polygonItem = new QGraphicsPolygonItem();
44 QPen pen = polygonItem->pen();
45 pen.setWidthF(0.01);
46
47 polygonItem->setPen(pen);
48 QBrush brush = polygonItem->brush();
49 brush.setStyle(Qt::SolidPattern);
50 brush.setColor(context->layerColor(this->zoneNode->layer.value()));
51 polygonItem->setBrush(brush);
52 polygonItem->setZValue(-context->layer(this->zoneNode->layer.value()));
53 polygonItem->setPolygon(poly);
54 polygonItem->setCacheMode(QGraphicsItem::DeviceCoordinateCache);
55 // test->setPixmap(polygonItem->);
56 //voir doc/qt/...
57 // polygonItem->paint();
58 this->addToGroup(polygonItem);
59
60 this->setCacheMode(QGraphicsItem::DeviceCoordinateCache);
61 setOpacity(0.6);
62 }
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@@ -0,0 +1,43
1 /*------------------------------------------------------------------------------
2 -- This file is a part of the Kicad Tools Software
3 -- Copyright (C) 2015, Plasma Physics Laboratory - CNRS
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 2 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, write to the Free Software
17 -- Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
18 -------------------------------------------------------------------------------*/
19 /*-- Author : Alexis Jeandet
20 -- Mail : alexis.jeandet@member.fsf.org
21 ----------------------------------------------------------------------------*/
22 #ifndef PCBZONE_H
23 #define PCBZONE_H
24 #include <QObject>
25 #include <QWidget>
26 #include <QGraphicsRectItem>
27 #include <QGraphicsItemGroup>
28 #include <pcbcontext.h>
29 #include <qicadpcb.h>
30 #include <QPainterPath>
31
32 class PCBZone: public QGraphicsItemGroup
33 {
34 public:
35 PCBZone(QIlib::QIcadPcbZone* zoneNode,PCBContext* context);
36 private:
37 void init();
38 QIlib::QIcadPcbZone* zoneNode;
39 int layer;
40 PCBContext* context;
41 };
42
43 #endif // PCBZONE_H
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@@ -1,167 +1,171
1 1 /*------------------------------------------------------------------------------
2 2 -- This file is a part of the Kicad Tools Software
3 3 -- Copyright (C) 2014, Plasma Physics Laboratory - CNRS
4 4 --
5 5 -- This program is free software; you can redistribute it and/or modify
6 6 -- it under the terms of the GNU General Public License as published by
7 7 -- the Free Software Foundation; either version 2 of the License, or
8 8 -- (at your option) any later version.
9 9 --
10 10 -- This program is distributed in the hope that it will be useful,
11 11 -- but WITHOUT ANY WARRANTY; without even the implied warranty of
12 12 -- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 13 -- GNU General Public License for more details.
14 14 --
15 15 -- You should have received a copy of the GNU General Public License
16 16 -- along with this program; if not, write to the Free Software
17 17 -- Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
18 18 -------------------------------------------------------------------------------*/
19 19 /*-- Author : Alexis Jeandet
20 20 -- Mail : alexis.jeandet@member.fsf.org
21 21 ----------------------------------------------------------------------------*/
22 22 const char* add_net_c = "(add_net";
23 23 const char* angle_c = "(angle";
24 24 const char* area_c = "(area";
25 25 const char* arrow1a_c = "(arrow1a";
26 26 const char* arrow1b_c = "(arrow1b";
27 27 const char* arrow2a_c = "(arrow2a";
28 28 const char* arrow2b_c = "(arrow2b";
29 29 const char* at_c = "(at";
30 30 const char* attr_c = "(attr";
31 31 const char* center_c = "(center";
32 32 const char* clearance_c = "(clearance";
33 33 const char* code_c = "(code";
34 34 const char* component_c = "(component";
35 35 const char* components_c = "(components";
36 36 const char* crossbar_c = "(crossbar";
37 37 const char* date_c = "(date";
38 38 const char* design_c = "(design";
39 39 const char* dimension_c = "(dimension";
40 40 const char* drawings_c = "(drawings";
41 41 const char* drill_c = "(drill";
42 42 const char* drillshape_c = "(drillshape";
43 43 const char* edge_width_c = "(edge_width";
44 44 const char* effects_c = "(effects";
45 45 const char* end_c = "(end";
46 46 const char* excludeedgelayer_c = "(excludeedgelayer";
47 47 const char* export_c = "(export";
48 48 const char* feature1_c = "(feature1";
49 49 const char* feature2_c = "(feature2";
50 50 const char* field_c = "(field";
51 51 const char* fields_c = "(fields";
52 const char* filled_polygon_c = "(filled_polygon";
52 53 const char* font_c = "(font";
53 54 const char* fp_circle_c = "(fp_circle";
54 55 const char* fp_line_c = "(fp_line";
55 56 const char* fp_text_c = "(fp_text";
56 57 const char* general_c = "(general";
57 58 const char* gr_arc_c = "(gr_arc";
58 59 const char* gr_circle_c = "(gr_circle";
59 60 const char* gr_line_c = "(gr_line";
60 61 const char* gr_text_c = "(gr_text";
61 62 const char* host_c = "(host";
62 63 const char* hpglpendiameter_c = "(hpglpendiameter";
63 64 const char* hpglpennumber_c = "(hpglpennumber";
64 65 const char* hpglpenoverlay_c = "(hpglpenoverlay";
65 66 const char* hpglpenspeed_c = "(hpglpenspeed";
66 67 const char* kicad_pcb_c = "(kicad_pcb";
67 68 const char* last_trace_width_c = "(last_trace_width";
68 69 const char* layers_c = "(layers";
69 70 const char* layer_c = "(layer";
70 71 const char* layerselection_c = "(layerselection";
71 72 const char* lib_c = "(lib";
72 73 const char* libpart_c = "(libpart";
73 74 const char* libparts_c = "(libparts";
74 75 const char* libraries_c = "(libraries";
75 76 const char* library_c = "(library";
76 77 const char* libsource_c = "(libsource";
77 78 const char* linewidth_c = "(linewidth";
78 79 const char* links_c = "(links";
79 80 const char* logical_c = "(logical";
80 81 const char* mirror_c = "(mirror";
81 82 const char* mod_edge_width_c = "(mod_edge_width";
82 83 const char* mod_text_size_c = "(mod_text_size";
83 84 const char* mode_c = "(mode";
84 85 const char* model_c = "(model";
85 86 const char* module_c = "(module";
86 87 const char* modules_c = "(modules";
87 88 const char* name_c = "(name";
88 89 const char* names_c = "(names";
89 90 const char* net_c = "(net";
90 91 const char* net_class_c = "(net_class";
91 92 const char* nets_c = "(nets";
92 93 const char* no_connect_c = "(no_connect";
93 94 const char* node_c = "(node";
94 95 const char* num_c = "(num";
95 96 const char* outputdirectory_c = "(outputdirectory";
96 97 const char* outputformat_c = "(outputformat";
97 98 const char* pad_c = "(pad";
98 99 const char* pad_drill_c = "(pad_drill";
99 100 const char* pad_size_c = "(pad_size";
100 101 const char* pad_to_mask_clearance_c = "(pad_to_mask_clearance";
101 102 const char* padsonsilk_c = "(padsonsilk";
102 103 const char* page_c = "(page";
103 104 const char* part_c = "(part";
104 105 const char* path_c = "(path";
105 106 const char* pcb_text_size_c = "(pcb_text_size";
106 107 const char* pcb_text_width_c = "(pcb_text_width";
107 108 const char* pcbplotparams_c = "(pcbplotparams";
108 109 const char* pin_c = "(pin";
109 110 const char* pins_c = "(pins";
110 111 const char* plotframeref_c = "(plotframeref";
111 112 const char* plotinvisibletext_c = "(plotinvisibletext";
112 113 const char* plotothertext_c = "(plotothertext";
113 114 const char* plotreference_c = "(plotreference";
114 115 const char* plotvalue_c = "(plotvalue";
116 const char* polygon_c = "(polygon";
115 117 const char* psa4output_c = "(psa4output";
116 118 const char* psnegative_c = "(psnegative";
119 const char* pts_c = "(pts";
117 120 const char* ref_c = "(ref";
118 121 const char* rotate = "(rota";
119 122 const char* scale_c = "(scale";
120 123 const char* scaleselection_c = "(scaleselection";
121 124 const char* segment_c = "(segment";
122 125 const char* segment_width_c = "(segment_width";
123 126 const char* setup_c = "(setup";
124 127 const char* sheetpath_c = "(sheetpath";
125 128 const char* size_c = "(size";
126 129 const char* source_c = "(source";
127 130 const char* start_c = "(start";
128 131 const char* subtractmaskfromsilk_c = "(subtractmaskfromsilk";
129 132 const char* tags_c = "(tags";
130 133 const char* tedit_c = "(tedit";
131 134 const char* thickness_c = "(thickness";
132 135 const char* tool_c = "(tool";
133 136 const char* trace_clearance_c = "(trace_clearance";
134 137 const char* trace_min_c = "(trace_min";
135 138 const char* trace_width_c = "(trace_width";
136 139 const char* tracks_c = "(tracks";
137 140 const char* tstamp_c = "(tstamp";
138 141 const char* tstamps_c = "(tstamps";
139 142 const char* type_c = "(type";
140 143 const char* uri_c = "(uri";
141 144 const char* useauxorigin_c = "(useauxorigin";
142 145 const char* usegerberextensions_c = "(usegerberextensions";
143 146 const char* uvia_dia_c = "(uvia_dia";
144 147 const char* uvia_drill_c = "(uvia_drill";
145 148 const char* uvia_min_drill_c = "(uvia_min_drill";
146 149 const char* uvia_min_size_c = "(uvia_min_size";
147 150 const char* uvia_size_c = "(uvia_size";
148 151 const char* uvias_allowed_c = "(uvias_allowed";
149 152 const char* value_c = "(value";
150 153 const char* version_c = "(version";
151 154 const char* via_c = "(via";
152 155 const char* via_dia_c = "(via_dia";
153 156 const char* via_drill_c = "(via_drill";
154 157 const char* via_min_drill_c = "(via_min_drill";
155 158 const char* via_min_size_c = "(via_min_size";
156 159 const char* via_size_c = "(via_size";
157 160 const char* viasonmask_c = "(viasonmask";
158 161 const char* visible_elements_c = "(visible_elements";
159 162 const char* width_c = "(width";
160 163 const char* xyz = "(x";
164 const char* xy_c = "(xy";
161 165 const char* zone_45_only_c = "(zone_45_only";
162 166 const char* zone_clearance_c = "(zone_clearance";
163 167 const char* zone_c = "(zone";
164 168 const char* zones_c = "(zones";
165 169
166 170
167 171
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@@ -1,178 +1,182
1 1 /*------------------------------------------------------------------------------
2 2 -- This file is a part of the Kicad Tools Software
3 3 -- Copyright (C) 2014, Plasma Physics Laboratory - CNRS
4 4 --
5 5 -- This program is free software; you can redistribute it and/or modify
6 6 -- it under the terms of the GNU General Public License as published by
7 7 -- the Free Software Foundation; either version 2 of the License, or
8 8 -- (at your option) any later version.
9 9 --
10 10 -- This program is distributed in the hope that it will be useful,
11 11 -- but WITHOUT ANY WARRANTY; without even the implied warranty of
12 12 -- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 13 -- GNU General Public License for more details.
14 14 --
15 15 -- You should have received a copy of the GNU General Public License
16 16 -- along with this program; if not, write to the Free Software
17 17 -- Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
18 18 -------------------------------------------------------------------------------*/
19 19 /*-- Author : Alexis Jeandet
20 20 -- Mail : alexis.jeandet@member.fsf.org
21 21 ----------------------------------------------------------------------------*/
22 22 /*
23 23 * Have a look to LispLikeLexique.ods
24 24 */
25 25 #ifndef LEXIQUE_H
26 26 #define LEXIQUE_H
27 27
28 28 namespace QIlib{
29 29
30 30 namespace Lexique
31 31 {
32 32 extern "C" const char* add_net_c;
33 33 extern "C" const char* angle_c;
34 34 extern "C" const char* area_c;
35 35 extern "C" const char* arrow1a_c;
36 36 extern "C" const char* arrow1b_c;
37 37 extern "C" const char* arrow2a_c;
38 38 extern "C" const char* arrow2b_c;
39 39 extern "C" const char* at_c;
40 40 extern "C" const char* attr_c;
41 41 extern "C" const char* center_c;
42 42 extern "C" const char* clearance_c;
43 43 extern "C" const char* code_c;
44 44 extern "C" const char* component_c;
45 45 extern "C" const char* components_c;
46 46 extern "C" const char* crossbar_c;
47 47 extern "C" const char* date_c;
48 48 extern "C" const char* design_c;
49 49 extern "C" const char* dimension_c;
50 50 extern "C" const char* drawings_c;
51 51 extern "C" const char* drill_c;
52 52 extern "C" const char* drillshape_c;
53 53 extern "C" const char* edge_width_c;
54 54 extern "C" const char* effects_c;
55 55 extern "C" const char* end_c;
56 56 extern "C" const char* excludeedgelayer_c;
57 57 extern "C" const char* export_c;
58 58 extern "C" const char* feature1_c;
59 59 extern "C" const char* feature2_c;
60 60 extern "C" const char* field_c;
61 61 extern "C" const char* fields_c;
62 extern "C" const char* filled_polygon_c;
62 63 extern "C" const char* font_c;
63 64 extern "C" const char* fp_circle_c;
64 65 extern "C" const char* fp_line_c;
65 66 extern "C" const char* fp_text_c;
66 67 extern "C" const char* general_c;
67 68 extern "C" const char* gr_arc_c;
68 69 extern "C" const char* gr_circle_c;
69 70 extern "C" const char* gr_line_c;
70 71 extern "C" const char* gr_text_c;
71 72 extern "C" const char* host_c;
72 73 extern "C" const char* hpglpendiameter_c;
73 74 extern "C" const char* hpglpennumber_c;
74 75 extern "C" const char* hpglpenoverlay_c;
75 76 extern "C" const char* hpglpenspeed_c;
76 77 extern "C" const char* kicad_pcb_c;
77 78 extern "C" const char* last_trace_width_c;
78 79 extern "C" const char* layers_c;
79 80 extern "C" const char* layer_c;
80 81 extern "C" const char* layerselection_c;
81 82 extern "C" const char* lib_c;
82 83 extern "C" const char* libpart_c;
83 84 extern "C" const char* libparts_c;
84 85 extern "C" const char* libraries_c;
85 86 extern "C" const char* library_c;
86 87 extern "C" const char* libsource_c;
87 88 extern "C" const char* linewidth_c;
88 89 extern "C" const char* links_c;
89 90 extern "C" const char* logical_c;
90 91 extern "C" const char* mirror_c;
91 92 extern "C" const char* mod_edge_width_c;
92 93 extern "C" const char* mod_text_size_c;
93 94 extern "C" const char* mode_c;
94 95 extern "C" const char* model_c;
95 96 extern "C" const char* module_c;
96 97 extern "C" const char* modules_c;
97 98 extern "C" const char* name_c;
98 99 extern "C" const char* names_c;
99 100 extern "C" const char* net_c;
100 101 extern "C" const char* net_class_c;
101 102 extern "C" const char* nets_c;
102 103 extern "C" const char* no_connect_c;
103 104 extern "C" const char* node_c;
104 105 extern "C" const char* num_c;
105 106 extern "C" const char* outputdirectory_c;
106 107 extern "C" const char* outputformat_c;
107 108 extern "C" const char* pad_c;
108 109 extern "C" const char* pad_drill_c;
109 110 extern "C" const char* pad_size_c;
110 111 extern "C" const char* pad_to_mask_clearance_c;
111 112 extern "C" const char* padsonsilk_c;
112 113 extern "C" const char* page_c;
113 114 extern "C" const char* part_c;
114 115 extern "C" const char* path_c;
115 116 extern "C" const char* pcb_text_size_c;
116 117 extern "C" const char* pcb_text_width_c;
117 118 extern "C" const char* pcbplotparams_c;
118 119 extern "C" const char* pin_c;
119 120 extern "C" const char* pins_c;
120 121 extern "C" const char* plotframeref_c;
121 122 extern "C" const char* plotinvisibletext_c;
122 123 extern "C" const char* plotothertext_c;
123 124 extern "C" const char* plotreference_c;
124 125 extern "C" const char* plotvalue_c;
126 extern "C" const char* polygon_c;
125 127 extern "C" const char* psa4output_c;
126 128 extern "C" const char* psnegative_c;
129 extern "C" const char* pts_c;
127 130 extern "C" const char* ref_c;
128 131 extern "C" const char* rotate;
129 132 extern "C" const char* scale_c;
130 133 extern "C" const char* scaleselection_c;
131 134 extern "C" const char* segment_c;
132 135 extern "C" const char* segment_width_c;
133 136 extern "C" const char* setup_c;
134 137 extern "C" const char* sheetpath_c;
135 138 extern "C" const char* size_c;
136 139 extern "C" const char* source_c;
137 140 extern "C" const char* start_c;
138 141 extern "C" const char* subtractmaskfromsilk_c;
139 142 extern "C" const char* tags_c;
140 143 extern "C" const char* tedit_c;
141 144 extern "C" const char* thickness_c;
142 145 extern "C" const char* tool_c;
143 146 extern "C" const char* trace_clearance_c;
144 147 extern "C" const char* trace_min_c;
145 148 extern "C" const char* trace_width_c;
146 149 extern "C" const char* tracks_c;
147 150 extern "C" const char* tstamp_c;
148 151 extern "C" const char* tstamps_c;
149 152 extern "C" const char* type_c;
150 153 extern "C" const char* uri_c;
151 154 extern "C" const char* useauxorigin_c;
152 155 extern "C" const char* usegerberextensions_c;
153 156 extern "C" const char* uvia_dia_c;
154 157 extern "C" const char* uvia_drill_c;
155 158 extern "C" const char* uvia_min_drill_c;
156 159 extern "C" const char* uvia_min_size_c;
157 160 extern "C" const char* uvia_size_c;
158 161 extern "C" const char* uvias_allowed_c;
159 162 extern "C" const char* value_c;
160 163 extern "C" const char* version_c;
161 164 extern "C" const char* via_c;
162 165 extern "C" const char* via_dia_c;
163 166 extern "C" const char* via_drill_c;
164 167 extern "C" const char* via_min_drill_c;
165 168 extern "C" const char* via_min_size_c;
166 169 extern "C" const char* via_size_c;
167 170 extern "C" const char* viasonmask_c;
168 171 extern "C" const char* visible_elements_c;
169 172 extern "C" const char* width_c;
170 173 extern "C" const char* xyz;
174 extern "C" const char* xy_c;
171 175 extern "C" const char* zone_45_only_c;
172 176 extern "C" const char* zone_clearance_c;
173 177 extern "C" const char* zone_c;
174 178 extern "C" const char* zones_c;
175 179 }
176 180 }
177 181
178 182 #endif // LEXIQUE_H
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@@ -1,1195 +1,1308
1 1 #include "qicadpcb.h"
2 2
3 3
4 4 QIlib::QIcadPcb::QIcadPcb()
5 5 :pcbRoot(NULL)
6 6 {
7 7
8 8 }
9 9
10 10 bool QIlib::QIcadPcb::parsePcb(const QString &pcb)
11 11 {
12 12 parse(pcb.toStdString().c_str());
13 13 updateConcreteTree();
14 14 return false;
15 15 }
16 16
17 17 QString QIlib::QIcadPcb::toString()
18 18 {
19 19
20 20 }
21 21
22 22 QString QIlib::QIcadPcb::print()
23 23 {
24 24 return rootNode.print();
25 25 }
26 26
27 27
28 28 void QIlib::QIcadPcb::updateConcreteTree()
29 29 {
30 30 if(this->rootNode.nodes.count())
31 31 {
32 32 if(this->rootNode.nodes.at(0)->name==QIlib::Lexique::kicad_pcb_c)
33 33 {
34 34 if(this->pcbRoot==NULL)
35 35 {
36 36 this->pcbRoot = new QIcadPcbRoot(this->rootNode.nodes.at(0));
37 37 }
38 38 }
39 39 }
40 40 }
41 41
42 42
43 43 QIlib::QIcadPcbRoot::QIcadPcbRoot(QIlib::AbstractNode *node)
44 44 :QIcadAbstractNodeWrapper(node)
45 45 {
46 46 this->setNode(node);
47 47 }
48 48
49 49 void QIlib::QIcadPcbRoot::setNode(QIlib::AbstractNode *node)
50 50 {
51 51 this->clrNets();
52 52 this->clrModules();
53 53 this->clrDimensions();
54 54 this->clrLines();
55 55 this->clrSegments();
56 56 this->clrVias();
57 57 this->clrArcs();
58 58 this->clrCircles();
59 59 this->clrTexts();
60 60 this->clrZones();
61 61 if(node->name==QIlib::Lexique::kicad_pcb_c)
62 62 {
63 63 this->p_node = node;
64 64 for(int i=0;i<node->nodes.count();i++)
65 65 {
66 66 if(node->nodes.at(i)->name==QIlib::Lexique::version_c)
67 67 {
68 68 this->version.setNode(node->nodes.at(i));
69 69 }
70 70 if(node->nodes.at(i)->name==QIlib::Lexique::host_c)
71 71 {
72 72 this->host.setNode(node->nodes.at(i));
73 73 }
74 74 if(node->nodes.at(i)->name==QIlib::Lexique::page_c)
75 75 {
76 76 this->page.setNode(node->nodes.at(i));
77 77 }
78 78 if(node->nodes.at(i)->name==QIlib::Lexique::general_c)
79 79 {
80 80 this->general.setNode(node->nodes.at(i));
81 81 }
82 82 if(node->nodes.at(i)->name==QIlib::Lexique::layers_c)
83 83 {
84 84 this->layers.setNode(node->nodes.at(i));
85 85 }
86 86 if(node->nodes.at(i)->name==QIlib::Lexique::setup_c)
87 87 {
88 88 this->setup.setNode(node->nodes.at(i));
89 89 }
90 90 if(node->nodes.at(i)->name==QIlib::Lexique::net_c)
91 91 {
92 92 this->apendNet(node->nodes.at(i));
93 93 }
94 94 if(node->nodes.at(i)->name==QIlib::Lexique::module_c)
95 95 {
96 96 this->apendModule(node->nodes.at(i));
97 97 }
98 98 if(node->nodes.at(i)->name==QIlib::Lexique::gr_line_c)
99 99 {
100 100 this->apendLine(node->nodes.at(i));
101 101 }
102 102 if(node->nodes.at(i)->name==QIlib::Lexique::dimension_c)
103 103 {
104 104 this->apendDimension(node->nodes.at(i));
105 105 }
106 106 if(node->nodes.at(i)->name==QIlib::Lexique::via_c)
107 107 {
108 108 this->apendVia(node->nodes.at(i));
109 109 }
110 110 if(node->nodes.at(i)->name==QIlib::Lexique::segment_c)
111 111 {
112 112 this->apendSegment(node->nodes.at(i));
113 113 }
114 114 if(node->nodes.at(i)->name==QIlib::Lexique::gr_text_c)
115 115 {
116 116 this->apendText(node->nodes.at(i));
117 117 }
118 118 if(node->nodes.at(i)->name==QIlib::Lexique::gr_arc_c)
119 119 {
120 120 this->apendArc(node->nodes.at(i));
121 121 }
122 122 if(node->nodes.at(i)->name==QIlib::Lexique::gr_circle_c)
123 123 {
124 124 this->apendCircle(node->nodes.at(i));
125 125 }
126 126 if(node->nodes.at(i)->name==QIlib::Lexique::zone_c)
127 127 {
128 128 this->apendZone(node->nodes.at(i));
129 129 }
130 130 }
131 131 }
132 132 }
133 133
134 134 void QIlib::QIcadPcbRoot::clrNets()
135 135 {
136 136 while(nets.count())
137 137 {
138 138 QIcadAbstractNodeWrapper* net;
139 139 net = nets.last();
140 140 nets.removeLast();
141 141 delete net;
142 142 }
143 143 }
144 144
145 145 void QIlib::QIcadPcbRoot::apendNet(QIlib::AbstractNode *node)
146 146 {
147 147 if(node->name==QIlib::Lexique::net_c)
148 148 {
149 149 this->nets.append(new QIcadAbstractNodeWrapper(node));
150 150 }
151 151 }
152 152
153 153 void QIlib::QIcadPcbRoot::clrModules()
154 154 {
155 155 while(modules.count())
156 156 {
157 157 QIcadPcbModule* module;
158 158 module = modules.last();
159 159 modules.removeLast();
160 160 delete module;
161 161 }
162 162 }
163 163
164 164 void QIlib::QIcadPcbRoot::apendModule(QIlib::AbstractNode *node)
165 165 {
166 166 if(node->name==QIlib::Lexique::module_c)
167 167 {
168 168 this->modules.append(new QIcadPcbModule(node));
169 169 }
170 170 }
171 171
172 172 void QIlib::QIcadPcbRoot::clrDimensions()
173 173 {
174 174 while(dimensions.count())
175 175 {
176 176 QIcadPcbDimension* dimension;
177 177 dimension = dimensions.last();
178 178 dimensions.removeLast();
179 179 delete dimension;
180 180 }
181 181 }
182 182
183 183 void QIlib::QIcadPcbRoot::apendDimension(QIlib::AbstractNode *node)
184 184 {
185 185 if(node->name==QIlib::Lexique::dimension_c)
186 186 {
187 187 this->dimensions.append(new QIcadPcbDimension(node));
188 188 }
189 189 }
190 190
191 191 void QIlib::QIcadPcbRoot::apendLine(QIlib::AbstractNode *node)
192 192 {
193 193 if(node->name==QIlib::Lexique::gr_line_c)
194 194 {
195 195 this->lines.append(new QIcadPcbLine(node));
196 196 }
197 197 }
198 198
199 199 void QIlib::QIcadPcbRoot::clrLines()
200 200 {
201 201 while(lines.count())
202 202 {
203 203 QIcadPcbLine* line;
204 204 line = lines.last();
205 205 lines.removeLast();
206 206 delete line;
207 207 }
208 208 }
209 209
210 210 void QIlib::QIcadPcbRoot::clrSegments()
211 211 {
212 212 while(segments.count())
213 213 {
214 214 QIcadPcbSegment* segment;
215 215 segment = segments.last();
216 216 segments.removeLast();
217 217 delete segment;
218 218 }
219 219 }
220 220
221 221 void QIlib::QIcadPcbRoot::apendSegment(QIlib::AbstractNode *node)
222 222 {
223 223 if(node->name==QIlib::Lexique::segment_c)
224 224 {
225 225 this->segments.append(new QIcadPcbSegment(node));
226 226 }
227 227 }
228 228
229 229 void QIlib::QIcadPcbRoot::clrVias()
230 230 {
231 231 while(vias.count())
232 232 {
233 233 QIcadPcbVia* via;
234 234 via = vias.last();
235 235 vias.removeLast();
236 236 delete via;
237 237 }
238 238 }
239 239
240 240 void QIlib::QIcadPcbRoot::apendVia(QIlib::AbstractNode *node)
241 241 {
242 242 if(node->name==QIlib::Lexique::via_c)
243 243 {
244 244 this->vias.append(new QIcadPcbVia(node,this->setup.defaultViaDrillSize()));
245 245 }
246 246 }
247 247
248 248 void QIlib::QIcadPcbRoot::clrArcs()
249 249 {
250 250 while(arcs.count())
251 251 {
252 252 QIcadPcbArc* arc;
253 253 arc = arcs.last();
254 254 arcs.removeLast();
255 255 delete arc;
256 256 }
257 257 }
258 258
259 259 void QIlib::QIcadPcbRoot::apendArc(QIlib::AbstractNode *node)
260 260 {
261 261 if(node->name==QIlib::Lexique::gr_arc_c)
262 262 {
263 263 this->arcs.append(new QIcadPcbArc(node));
264 264 }
265 265 }
266 266
267 267 void QIlib::QIcadPcbRoot::clrCircles()
268 268 {
269 269 while(circles.count())
270 270 {
271 271 QIcadPcbCircle* circle;
272 272 circle = circles.last();
273 273 circles.removeLast();
274 274 delete circle;
275 275 }
276 276 }
277 277
278 278 void QIlib::QIcadPcbRoot::apendCircle(QIlib::AbstractNode *node)
279 279 {
280 280 if(node->name==QIlib::Lexique::gr_circle_c)
281 281 {
282 282 this->circles.append(new QIcadPcbCircle(node));
283 283 }
284 284 }
285 285
286 286 void QIlib::QIcadPcbRoot::clrTexts()
287 287 {
288 288 while(texts.count())
289 289 {
290 290 QIcadPcbText* text;
291 291 text = texts.last();
292 292 texts.removeLast();
293 293 delete text;
294 294 }
295 295 }
296 296
297 297 void QIlib::QIcadPcbRoot::apendText(QIlib::AbstractNode *node)
298 298 {
299 299 if(node->name==QIlib::Lexique::gr_text_c)
300 300 {
301 301 this->texts.append(new QIcadPcbText(node));
302 302 }
303 303 }
304 304
305 305 void QIlib::QIcadPcbRoot::clrZones()
306 306 {
307 307 while(zones.count())
308 308 {
309 309 QIcadPcbZone* zone;
310 310 zone = zones.last();
311 311 zones.removeLast();
312 312 delete zone;
313 313 }
314 314 }
315 315
316 316 void QIlib::QIcadPcbRoot::apendZone(QIlib::AbstractNode *node)
317 317 {
318 318 if(node->name==QIlib::Lexique::zone_c)
319 319 {
320 320 this->zones.append(new QIcadPcbZone(node));
321 321 }
322 322 }
323 323
324 324 QIlib::QIcadPcbGeneralInfo::QIcadPcbGeneralInfo(QIlib::AbstractNode *node)
325 325 :QIcadAbstractNodeWrapper(node)
326 326 {
327 327 this->setNode(node);
328 328 }
329 329
330 330 void QIlib::QIcadPcbGeneralInfo::setNode(QIlib::AbstractNode *node)
331 331 {
332 332 if(node->name==QIlib::Lexique::general_c)
333 333 {
334 334 this->p_node = node;
335 335 for(int i=0;i<node->nodes.count();i++)
336 336 {
337 337 if(node->nodes.at(i)->name==QIlib::Lexique::links_c)
338 338 {
339 339 this->links.setNode(node->nodes.at(i));
340 340 }
341 341 if(node->nodes.at(i)->name==QIlib::Lexique::no_connect_c)
342 342 {
343 343 this->no_connections.setNode(node->nodes.at(i));
344 344 }
345 345 if(node->nodes.at(i)->name==QIlib::Lexique::area_c)
346 346 {
347 347 this->area.setNode(node->nodes.at(i));
348 348 }
349 349 if(node->nodes.at(i)->name==QIlib::Lexique::thickness_c)
350 350 {
351 351 this->thickness.setNode(node->nodes.at(i));
352 352 }
353 353 if(node->nodes.at(i)->name==QIlib::Lexique::drawings_c)
354 354 {
355 355 this->drawings.setNode(node->nodes.at(i));
356 356 }
357 357 if(node->nodes.at(i)->name==QIlib::Lexique::tracks_c)
358 358 {
359 359 this->tracks.setNode(node->nodes.at(i));
360 360 }
361 361 if(node->nodes.at(i)->name==QIlib::Lexique::zones_c)
362 362 {
363 363 this->zones.setNode(node->nodes.at(i));
364 364 }
365 365 if(node->nodes.at(i)->name==QIlib::Lexique::modules_c)
366 366 {
367 367 this->modules.setNode(node->nodes.at(i));
368 368 }
369 369 if(node->nodes.at(i)->name==QIlib::Lexique::nets_c)
370 370 {
371 371 this->nets.setNode(node->nodes.at(i));
372 372 }
373 373 }
374 374 }
375 375 }
376 376
377 377
378 378 QIlib::QIcadPcbLayers::QIcadPcbLayers(QIlib::AbstractNode *node)
379 379 :QIcadAbstractNodeWrapper(node)
380 380 {
381 381 this->setNode(node);
382 382 }
383 383
384 384 void QIlib::QIcadPcbLayers::setNode(QIlib::AbstractNode *node)
385 385 {
386 386 this->p_node = node;
387 387 if(node->name==QIlib::Lexique::layers_c)
388 388 {
389 389 this->clrLayers();
390 390 for(int i=0;i<node->nodes.count();i++)
391 391 {
392 392 this->apendLayer(node->nodes.at(i));
393 393 }
394 394 }
395 395 }
396 396
397 397 void QIlib::QIcadPcbLayers::clrLayers()
398 398 {
399 399 while(layers.count())
400 400 {
401 401 QIcadPcbLayer* layer;
402 402 layer = layers.last();
403 403 layers.removeLast();
404 404 delete layer;
405 405 }
406 406 }
407 407
408 408 void QIlib::QIcadPcbLayers::apendLayer(QIlib::AbstractNode *node)
409 409 {
410 410 this->layers.append(new QIcadPcbLayer(node));
411 411 }
412 412
413 413
414 414 QIlib::QIcadPcbLine::QIcadPcbLine(QIlib::AbstractNode *node)
415 415 :QIcadAbstractPcbLine(node)
416 416 {
417 417 this->setNode(node);
418 418 }
419 419
420 420
421 421 void QIlib::QIcadPcbLine::setNode(QIlib::AbstractNode *node)
422 422 {
423 423 if(node->name==QIlib::Lexique::gr_line_c)
424 424 {
425 425 this->p_node = node;
426 426 for(int i=0;i<node->nodes.count();i++)
427 427 {
428 428 if(node->nodes.at(i)->name==QIlib::Lexique::start_c)
429 429 {
430 430 this->p_startpos = nodeTo2DCoords(node->nodes.at(i));
431 431 this->start.setNode(node->nodes.at(i));
432 432 }
433 433 if(node->nodes.at(i)->name==QIlib::Lexique::end_c)
434 434 {
435 435 this->p_stoppos = nodeTo2DCoords(node->nodes.at(i));
436 436 this->end.setNode(node->nodes.at(i));
437 437 }
438 438 if(node->nodes.at(i)->name==QIlib::Lexique::angle_c)
439 439 {
440 440 this->angle.setNode(node->nodes.at(i));
441 441 }
442 442 if(node->nodes.at(i)->name==QIlib::Lexique::layer_c)
443 443 {
444 444 this->p_layers = node->nodes.at(i)->Values;
445 445 this->layer.setNode(node->nodes.at(i));
446 446 }
447 447 if(node->nodes.at(i)->name==QIlib::Lexique::width_c)
448 448 {
449 449 this->p_width = nodeValueToDouble(node->nodes.at(i));
450 450 this->width.setNode(node->nodes.at(i));
451 451 }
452 452 }
453 453 }
454 454 }
455 455
456 456
457 457 QIlib::QIcadPcbModule::QIcadPcbModule(QIlib::AbstractNode *node)
458 458 :QIcadAbstractNodeWrapper(node),p_angle(0.0)
459 459 {
460 460 this->setNode(node);
461 461 }
462 462
463 463 const QPointF &QIlib::QIcadPcbModule::pos()
464 464 {
465 465 return p_pos;
466 466 }
467 467
468 468 double QIlib::QIcadPcbModule::angle()
469 469 {
470 470 return - p_angle;
471 471 }
472 472
473 473 void QIlib::QIcadPcbModule::setNode(QIlib::AbstractNode *node)
474 474 {
475 475 this->clrPads();
476 476 if(node->name==QIlib::Lexique::module_c)
477 477 {
478 478 this->p_node = node;
479 479 for(int i=0;i<node->nodes.count();i++)
480 480 {
481 481 if(node->nodes.at(i)->name==QIlib::Lexique::layer_c)
482 482 {
483 483 this->layer.setNode(node->nodes.at(i));
484 484 }
485 485 if(node->nodes.at(i)->name==QIlib::Lexique::tedit_c)
486 486 {
487 487 this->tedit.setNode(node->nodes.at(i));
488 488 }
489 489 if(node->nodes.at(i)->name==QIlib::Lexique::tstamp_c)
490 490 {
491 491 this->tstamp.setNode(node->nodes.at(i));
492 492 }
493 493 if(node->nodes.at(i)->name==QIlib::Lexique::at_c)
494 494 {
495 495 this->at.setNode(node->nodes.at(i));
496 496 QStringList coords=node->nodes.at(i)->Values;
497 497 p_pos = nodeTo2DCoords(node->nodes.at(i));
498 498 if(coords.count()==3)
499 499 {
500 500 p_angle = coords.at(2).toDouble();
501 501 this->updatePadsAngle();
502 502 }
503 503 }
504 504 if(node->nodes.at(i)->name==QIlib::Lexique::tags_c)
505 505 {
506 506 this->tags.setNode(node->nodes.at(i));
507 507 }
508 508 if(node->nodes.at(i)->name==QIlib::Lexique::path_c)
509 509 {
510 510 this->path.setNode(node->nodes.at(i));
511 511 }
512 512 if(node->nodes.at(i)->name==QIlib::Lexique::attr_c)
513 513 {
514 514 this->attr.setNode(node->nodes.at(i));
515 515 }
516 516 if(node->nodes.at(i)->name==QIlib::Lexique::pad_c)
517 517 {
518 518 this->apendPad(node->nodes.at(i));
519 519 }
520 520 if(node->nodes.at(i)->name==QIlib::Lexique::fp_line_c)
521 521 {
522 522 this->apendLine(node->nodes.at(i));
523 523 }
524 524 if(node->nodes.at(i)->name==QIlib::Lexique::fp_text_c)
525 525 {
526 526 this->apendText(node->nodes.at(i));
527 527 }
528 528 if(node->nodes.at(i)->name==QIlib::Lexique::fp_circle_c)
529 529 {
530 530 this->apendCircle(node->nodes.at(i));
531 531 }
532 532 }
533 533 }
534 534 }
535 535
536 536 void QIlib::QIcadPcbModule::clrPads()
537 537 {
538 538 while(pads.count())
539 539 {
540 540 QIcadPcbPad* pad;
541 541 pad = pads.last();
542 542 pads.removeLast();
543 543 delete pad;
544 544 }
545 545 }
546 546
547 547 void QIlib::QIcadPcbModule::apendPad(QIlib::AbstractNode *node)
548 548 {
549 549 if(node->name==QIlib::Lexique::pad_c)
550 550 {
551 551 this->pads.append(new QIcadPcbPad(node, this->p_angle));
552 552 }
553 553 }
554 554
555 555 void QIlib::QIcadPcbModule::clrTexts()
556 556 {
557 557 while(fp_texts.count())
558 558 {
559 559 QIcadPcbFPText* text;
560 560 text = fp_texts.last();
561 561 fp_texts.removeLast();
562 562 delete text;
563 563 }
564 564 }
565 565
566 566 void QIlib::QIcadPcbModule::apendText(QIlib::AbstractNode *node)
567 567 {
568 568 if(node->name==QIlib::Lexique::fp_text_c)
569 569 {
570 570 this->fp_texts.append(new QIcadPcbFPText(node));
571 571 }
572 572 }
573 573
574 574 void QIlib::QIcadPcbModule::clrLines()
575 575 {
576 576 while(fp_lines.count())
577 577 {
578 578 QIcadPcbFPLine* line;
579 579 line = fp_lines.last();
580 580 fp_lines.removeLast();
581 581 delete line;
582 582 }
583 583 }
584 584
585 585 void QIlib::QIcadPcbModule::apendLine(QIlib::AbstractNode *node)
586 586 {
587 587 if(node->name==QIlib::Lexique::fp_line_c)
588 588 {
589 589 this->fp_lines.append(new QIcadPcbFPLine(node));
590 590 }
591 591 }
592 592
593 593 void QIlib::QIcadPcbModule::clrCircles()
594 594 {
595 595 while(fp_circles.count())
596 596 {
597 597 QIcadPcbFPCircle* circle;
598 598 circle = fp_circles.last();
599 599 fp_circles.removeLast();
600 600 delete circle;
601 601 }
602 602 }
603 603
604 604 void QIlib::QIcadPcbModule::apendCircle(QIlib::AbstractNode *node)
605 605 {
606 606 if(node->name==QIlib::Lexique::fp_circle_c)
607 607 {
608 608 this->fp_circles.append(new QIcadPcbFPCircle(node));
609 609 }
610 610 }
611 611
612 612 void QIlib::QIcadPcbModule::updatePadsAngle()
613 613 {
614 614 for(int i=0;i<this->pads.count();i++)
615 615 {
616 616 this->pads.at(i)->setModuleAngle(this->p_angle);
617 617 }
618 618 }
619 619
620 620
621 621 QIlib::QIcadPcbDimension::QIcadPcbDimension(QIlib::AbstractNode *node)
622 622 :QIcadAbstractNodeWrapper(node)
623 623 {
624 624 this->setNode(node);
625 625 }
626 626
627 627 void QIlib::QIcadPcbDimension::setNode(QIlib::AbstractNode *node)
628 628 {
629 629 if(node->name==QIlib::Lexique::dimension_c)
630 630 {
631 631 this->p_node = node;
632 632 for(int i=0;i<node->nodes.count();i++)
633 633 {
634 634 if(node->nodes.at(i)->name==QIlib::Lexique::width_c)
635 635 {
636 636 this->width.setNode(node->nodes.at(i));
637 637 }
638 638 if(node->nodes.at(i)->name==QIlib::Lexique::layer_c)
639 639 {
640 640 this->layer.setNode(node->nodes.at(i));
641 641 }
642 642 if(node->nodes.at(i)->name==QIlib::Lexique::gr_text_c)
643 643 {
644 644 this->gr_text.setNode(node->nodes.at(i));
645 645 }
646 646 if(node->nodes.at(i)->name==QIlib::Lexique::feature1_c)
647 647 {
648 648 this->feature1.setNode(node->nodes.at(i));
649 649 }
650 650 if(node->nodes.at(i)->name==QIlib::Lexique::crossbar_c)
651 651 {
652 652 this->crossbar.setNode(node->nodes.at(i));
653 653 }
654 654 if(node->nodes.at(i)->name==QIlib::Lexique::arrow1a_c)
655 655 {
656 656 this->arrow1a.setNode(node->nodes.at(i));
657 657 }
658 658 if(node->nodes.at(i)->name==QIlib::Lexique::arrow1b_c)
659 659 {
660 660 this->arrow1b.setNode(node->nodes.at(i));
661 661 }
662 662 if(node->nodes.at(i)->name==QIlib::Lexique::arrow2a_c)
663 663 {
664 664 this->arrow2a.setNode(node->nodes.at(i));
665 665 }
666 666 if(node->nodes.at(i)->name==QIlib::Lexique::arrow2b_c)
667 667 {
668 668 this->arrow2b.setNode(node->nodes.at(i));
669 669 }
670 670 }
671 671 }
672 672 }
673 673
674 674
675 675 QIlib::QIcadPcbModuleModel::QIcadPcbModuleModel(QIlib::AbstractNode *node)
676 676 :QIcadAbstractNodeWrapper(node)
677 677 {
678 678 this->setNode(node);
679 679 }
680 680
681 681 void QIlib::QIcadPcbModuleModel::setNode(QIlib::AbstractNode *node)
682 682 {
683 683 this->p_node = node;
684 684 }
685 685
686 686
687 687 QIlib::QIcadPcbFPText::QIcadPcbFPText(QIlib::AbstractNode *node)
688 688 :QIcadAbstractNodeWrapper(node)
689 689 {
690 690 this->setNode(node);
691 691 }
692 692
693 693 void QIlib::QIcadPcbFPText::setNode(QIlib::AbstractNode *node)
694 694 {
695 695 if(node->name==QIlib::Lexique::pad_c)
696 696 {
697 697 this->p_node = node;
698 698 for(int i=0;i<node->nodes.count();i++)
699 699 {
700 700 if(node->nodes.at(i)->name==QIlib::Lexique::at_c)
701 701 {
702 702 this->at.setNode(node->nodes.at(i));
703 703 }
704 704 if(node->nodes.at(i)->name==QIlib::Lexique::layer_c)
705 705 {
706 706 this->layer.setNode(node->nodes.at(i));
707 707 }
708 708 if(node->nodes.at(i)->name==QIlib::Lexique::effects_c)
709 709 {
710 710 this->effects.setNode(node->nodes.at(i));
711 711 }
712 712 }
713 713 }
714 714 }
715 715
716 716
717 717 QIlib::QIcadPcbFpTextEffects::QIcadPcbFpTextEffects(QIlib::AbstractNode *node)
718 718 :QIcadAbstractNodeWrapper(node)
719 719 {
720 720 this->setNode(node);
721 721 }
722 722
723 723 void QIlib::QIcadPcbFpTextEffects::setNode(QIlib::AbstractNode *node)
724 724 {
725 725 this->p_node = node;
726 726 }
727 727
728 728
729 729 QIlib::QIcadPcbFpTextEffectsFont::QIcadPcbFpTextEffectsFont(QIlib::AbstractNode *node)
730 730 :QIcadAbstractNodeWrapper(node)
731 731 {
732 732 this->setNode(node);
733 733 }
734 734
735 735 void QIlib::QIcadPcbFpTextEffectsFont::setNode(QIlib::AbstractNode *node)
736 736 {
737 737 this->p_node = node;
738 738 }
739 739
740 740
741 741 QIlib::QIcadPcbNetClass::QIcadPcbNetClass(QIlib::AbstractNode *node)
742 742 :QIcadAbstractNodeWrapper(node)
743 743 {
744 744 this->setNode(node);
745 745 }
746 746
747 747 void QIlib::QIcadPcbNetClass::setNode(QIlib::AbstractNode *node)
748 748 {
749 749 this->p_node = node;
750 750 }
751 751
752 752
753 753 QIlib::QIcadPcbSetup::QIcadPcbSetup(QIlib::AbstractNode *node)
754 754 :QIcadAbstractNodeWrapper(node)
755 755 {
756 756 this->setNode(node);
757 757 }
758 758
759 759 void QIlib::QIcadPcbSetup::setNode(QIlib::AbstractNode *node)
760 760 {
761 761 if(node->name==QIlib::Lexique::setup_c)
762 762 {
763 763 this->p_node = node;
764 764 for(int i=0;i<node->nodes.count();i++)
765 765 {
766 766 if(node->nodes.at(i)->name==QIlib::Lexique::via_drill_c)
767 767 {
768 768 this->via_dril.setNode(node->nodes.at(i));
769 769 this->p_defaultViaDrillSize = nodeValueToDouble(node->nodes.at(i));
770 770 }
771 771 }
772 772 }
773 773 }
774 774
775 775
776 776 QIlib::QIcadPcbPlotParams::QIcadPcbPlotParams(QIlib::AbstractNode *node)
777 777 :QIcadAbstractNodeWrapper(node)
778 778 {
779 779 this->setNode(node);
780 780 }
781 781
782 782 void QIlib::QIcadPcbPlotParams::setNode(QIlib::AbstractNode *node)
783 783 {
784 784 this->p_node = node;
785 785 }
786 786
787 787
788 788 QIlib::QIcadPcbSegment::QIcadPcbSegment(QIlib::AbstractNode *node)
789 789 :QIcadAbstractPcbLine(node)
790 790 {
791 791 this->setNode(node);
792 792 }
793 793
794 794 void QIlib::QIcadPcbSegment::setNode(QIlib::AbstractNode *node)
795 795 {
796 796 if(node->name==QIlib::Lexique::segment_c)
797 797 {
798 798 this->p_node = node;
799 799 for(int i=0;i<node->nodes.count();i++)
800 800 {
801 801 if(node->nodes.at(i)->name==QIlib::Lexique::start_c)
802 802 {
803 803 this->p_startpos = nodeTo2DCoords(node->nodes.at(i));
804 804 this->start.setNode(node->nodes.at(i));
805 805 }
806 806 if(node->nodes.at(i)->name==QIlib::Lexique::end_c)
807 807 {
808 808 this->p_stoppos = nodeTo2DCoords(node->nodes.at(i));
809 809 this->end.setNode(node->nodes.at(i));
810 810 }
811 811 if(node->nodes.at(i)->name==QIlib::Lexique::width_c)
812 812 {
813 813 this->p_width = nodeValueToDouble(node->nodes.at(i));
814 814 this->width.setNode(node->nodes.at(i));
815 815 }
816 816 if(node->nodes.at(i)->name==QIlib::Lexique::layer_c)
817 817 {
818 818 this->p_layers = node->nodes.at(i)->Values;
819 819 this->layer.setNode(node->nodes.at(i));
820 820 }
821 821 if(node->nodes.at(i)->name==QIlib::Lexique::net_c)
822 822 {
823 823 this->net.setNode(node->nodes.at(i));
824 824 }
825 825 }
826 826 }
827 827 }
828 828
829 829
830 830 QIlib::QIcadPcbVia::QIcadPcbVia(QIlib::AbstractNode *node, double defaultDrill)
831 831 :QIcadAbstractNodeWrapper(node),p_drill(defaultDrill)
832 832 {
833 833 this->setNode(node);
834 834 }
835 835
836 836 void QIlib::QIcadPcbVia::setNode(QIlib::AbstractNode *node)
837 837 {
838 838 if(node->name==QIlib::Lexique::via_c)
839 839 {
840 840 this->p_node = node;
841 841 for(int i=0;i<node->nodes.count();i++)
842 842 {
843 843 if(node->nodes.at(i)->name==QIlib::Lexique::at_c)
844 844 {
845 845 this->at.setNode(node->nodes.at(i));
846 846 p_pos = nodeTo2DCoords(node->nodes.at(i));
847 847 }
848 848 if(node->nodes.at(i)->name==QIlib::Lexique::size_c)
849 849 {
850 850 this->sizeNode.setNode(node->nodes.at(i));
851 851 p_size = QSizeF(nodeValueToDouble(node->nodes.at(i)),nodeValueToDouble(node->nodes.at(i)));
852 852 }
853 853 if(node->nodes.at(i)->name==QIlib::Lexique::drill_c)
854 854 {
855 855 this->drillNode.setNode(node->nodes.at(i));
856 856 p_drill = nodeValueToDouble(node->nodes.at(i));
857 857 }
858 858 if(node->nodes.at(i)->name==QIlib::Lexique::layers_c)
859 859 {
860 860 this->layersNode.setNode(node->nodes.at(i));
861 861 p_layers = node->nodes.at(i)->Values;
862 862 }
863 863 if(node->nodes.at(i)->name==QIlib::Lexique::net_c)
864 864 {
865 865 this->net.setNode(node->nodes.at(i));
866 866 }
867 867 if(node->nodes.at(i)->name==QIlib::Lexique::tstamp_c)
868 868 {
869 869 this->tstamp.setNode(node->nodes.at(i));
870 870 }
871 871 }
872 872 }
873 873 }
874 874
875 875
876 876 QIlib::QIcadPcbPad::QIcadPcbPad(QIlib::AbstractNode *node, double modAngle)
877 877 :QIcadAbstractNodeWrapper(node),p_Mod_angle(modAngle),p_angle(0.0)
878 878 {
879 879 this->setNode(node);
880 880 }
881 881
882 882
883 883
884 884 void QIlib::QIcadPcbPad::setNode(QIlib::AbstractNode *node)
885 885 {
886 886 if(node->name==QIlib::Lexique::pad_c)
887 887 {
888 888 this->p_node = node;
889 889 if(p_node->Values.count()>=3)
890 890 {
891 891 if(!this->p_node->Values.at((2)).compare("rect"))
892 892 {
893 893 this->p_shape = rectangle;
894 894 }
895 895 else
896 896 if(!this->p_node->Values.at((2)).compare("circle"))
897 897 {
898 898 this->p_shape = circle;
899 899 }
900 900 this->p_padNumber = nodeValueToInt(node,0);
901 901 }
902 902 for(int i=0;i<node->nodes.count();i++)
903 903 {
904 904 if(node->nodes.at(i)->name==QIlib::Lexique::at_c)
905 905 {
906 906 this->at.setNode(node->nodes.at(i));
907 907 this->p_pos = nodeTo2DCoords(node->nodes.at(i));
908 908 this->p_angle = nodeValueToDouble(node->nodes.at(i),2);
909 909 }
910 910 if(node->nodes.at(i)->name==QIlib::Lexique::size_c)
911 911 {
912 912 this->sizeNode.setNode(node->nodes.at(i));
913 913 this->p_size = nodeTo2DSize(node->nodes.at(i));
914 914 }
915 915 if(node->nodes.at(i)->name==QIlib::Lexique::layers_c)
916 916 {
917 917 this->layer.setNode(node->nodes.at(i));
918 918 this->p_layers = node->nodes.at(i)->Values;
919 919 }
920 920 if(node->nodes.at(i)->name==QIlib::Lexique::net_c)
921 921 {
922 922 this->netNode.setNode(node->nodes.at(i));
923 923 }
924 924 if(node->nodes.at(i)->name==QIlib::Lexique::drill_c)
925 925 {
926 926 this->drillNode.setNode(node->nodes.at(i));
927 927 this->p_drill = nodeValueToDouble(node->nodes.at(i));
928 928 }
929 929 }
930 930 }
931 931 }
932 932
933 933
934 934 QIlib::QIcadPcbFPLine::QIcadPcbFPLine(QIlib::AbstractNode *node)
935 935 :QIcadAbstractPcbLine(node)
936 936 {
937 937 this->setNode(node);
938 938 }
939 939
940 940 void QIlib::QIcadPcbFPLine::setNode(QIlib::AbstractNode *node)
941 941 {
942 942 if(node->name==QIlib::Lexique::fp_line_c)
943 943 {
944 944 this->p_node = node;
945 945 for(int i=0;i<node->nodes.count();i++)
946 946 {
947 947 if(node->nodes.at(i)->name==QIlib::Lexique::start_c)
948 948 {
949 949 this->p_startpos = nodeTo2DCoords(node->nodes.at(i));
950 950 this->start.setNode(node->nodes.at(i));
951 951 }
952 952 if(node->nodes.at(i)->name==QIlib::Lexique::end_c)
953 953 {
954 954 this->p_stoppos = nodeTo2DCoords(node->nodes.at(i));
955 955 this->end.setNode(node->nodes.at(i));
956 956 }
957 957 if(node->nodes.at(i)->name==QIlib::Lexique::layer_c)
958 958 {
959 959 this->p_layers = node->nodes.at(i)->Values;
960 960 this->layer.setNode(node->nodes.at(i));
961 961 }
962 962 if(node->nodes.at(i)->name==QIlib::Lexique::width_c)
963 963 {
964 964 this->p_width = nodeValueToDouble(node->nodes.at(i));
965 965 this->width.setNode(node->nodes.at(i));
966 966 }
967 967 }
968 968 }
969 969 }
970 970
971 971
972 972 QIlib::QIcadPcbFPCircle::QIcadPcbFPCircle(QIlib::AbstractNode *node)
973 973 :QIcadAbstractNodeWrapper(node)
974 974 {
975 975 this->setNode(node);
976 976 }
977 977
978 978 void QIlib::QIcadPcbFPCircle::setNode(QIlib::AbstractNode *node)
979 979 {
980 980 if(node->name==QIlib::Lexique::fp_circle_c)
981 981 {
982 982 this->p_node = node;
983 983 for(int i=0;i<node->nodes.count();i++)
984 984 {
985 985 if(node->nodes.at(i)->name==QIlib::Lexique::center_c)
986 986 {
987 987 this->center.setNode(node->nodes.at(i));
988 988 }
989 989 if(node->nodes.at(i)->name==QIlib::Lexique::end_c)
990 990 {
991 991 this->end.setNode(node->nodes.at(i));
992 992 }
993 993 if(node->nodes.at(i)->name==QIlib::Lexique::layer_c)
994 994 {
995 995 this->layer.setNode(node->nodes.at(i));
996 996 }
997 997 if(node->nodes.at(i)->name==QIlib::Lexique::width_c)
998 998 {
999 999 this->width.setNode(node->nodes.at(i));
1000 1000 }
1001 1001 }
1002 1002 }
1003 1003 }
1004 1004
1005 1005
1006 1006 QIlib::QIcadPcbText::QIcadPcbText(QIlib::AbstractNode *node)
1007 1007 :QIcadAbstractNodeWrapper(node)
1008 1008 {
1009 1009 this->setNode(node);
1010 1010 }
1011 1011
1012 1012 void QIlib::QIcadPcbText::setNode(QIlib::AbstractNode *node)
1013 1013 {
1014 1014 if(node->name==QIlib::Lexique::gr_text_c)
1015 1015 {
1016 1016 this->p_node = node;
1017 1017 for(int i=0;i<node->nodes.count();i++)
1018 1018 {
1019 1019 if(node->nodes.at(i)->name==QIlib::Lexique::at_c)
1020 1020 {
1021 1021 this->at.setNode(node->nodes.at(i));
1022 1022 }
1023 1023 if(node->nodes.at(i)->name==QIlib::Lexique::layer_c)
1024 1024 {
1025 1025 this->layer.setNode(node->nodes.at(i));
1026 1026 }
1027 1027 if(node->nodes.at(i)->name==QIlib::Lexique::width_c)
1028 1028 {
1029 1029 this->width.setNode(node->nodes.at(i));
1030 1030 }
1031 1031 if(node->nodes.at(i)->name==QIlib::Lexique::effects_c)
1032 1032 {
1033 1033 this->effects.setNode(node->nodes.at(i));
1034 1034 }
1035 1035 }
1036 1036 }
1037 1037 }
1038 1038
1039 1039
1040 1040 QIlib::QIcadPcbCircle::QIcadPcbCircle(QIlib::AbstractNode *node)
1041 1041 :QIcadAbstractNodeWrapper(node)
1042 1042 {
1043 1043 this->setNode(node);
1044 1044 }
1045 1045
1046 1046 void QIlib::QIcadPcbCircle::setNode(QIlib::AbstractNode *node)
1047 1047 {
1048 1048 if(node->name==QIlib::Lexique::gr_circle_c)
1049 1049 {
1050 1050 this->p_node = node;
1051 1051 for(int i=0;i<node->nodes.count();i++)
1052 1052 {
1053 1053 if(node->nodes.at(i)->name==QIlib::Lexique::center_c)
1054 1054 {
1055 1055 this->center.setNode(node->nodes.at(i));
1056 1056 }
1057 1057 if(node->nodes.at(i)->name==QIlib::Lexique::end_c)
1058 1058 {
1059 1059 this->end.setNode(node->nodes.at(i));
1060 1060 }
1061 1061 if(node->nodes.at(i)->name==QIlib::Lexique::layer_c)
1062 1062 {
1063 1063 this->layer.setNode(node->nodes.at(i));
1064 1064 }
1065 1065 if(node->nodes.at(i)->name==QIlib::Lexique::width_c)
1066 1066 {
1067 1067 this->width.setNode(node->nodes.at(i));
1068 1068 }
1069 1069 }
1070 1070 }
1071 1071 }
1072 1072
1073 1073
1074 1074 QIlib::QIcadPcbArc::QIcadPcbArc(QIlib::AbstractNode *node)
1075 1075 :QIcadAbstractNodeWrapper(node)
1076 1076 {
1077 1077 this->setNode(node);
1078 1078 }
1079 1079
1080 1080 void QIlib::QIcadPcbArc::setNode(QIlib::AbstractNode *node)
1081 1081 {
1082 1082 if(node->name==QIlib::Lexique::gr_arc_c)
1083 1083 {
1084 1084 this->p_node = node;
1085 1085 for(int i=0;i<node->nodes.count();i++)
1086 1086 {
1087 1087 if(node->nodes.at(i)->name==QIlib::Lexique::start_c)
1088 1088 {
1089 1089 this->start.setNode(node->nodes.at(i));
1090 1090 }
1091 1091 if(node->nodes.at(i)->name==QIlib::Lexique::end_c)
1092 1092 {
1093 1093 this->end.setNode(node->nodes.at(i));
1094 1094 }
1095 1095 if(node->nodes.at(i)->name==QIlib::Lexique::angle_c)
1096 1096 {
1097 1097 this->angle.setNode(node->nodes.at(i));
1098 1098 }
1099 1099 if(node->nodes.at(i)->name==QIlib::Lexique::layer_c)
1100 1100 {
1101 1101 this->layer.setNode(node->nodes.at(i));
1102 1102 }
1103 1103 if(node->nodes.at(i)->name==QIlib::Lexique::width_c)
1104 1104 {
1105 1105 this->width.setNode(node->nodes.at(i));
1106 1106 }
1107 1107 }
1108 1108 }
1109 1109 }
1110 1110
1111 1111
1112 1112 QIlib::QIcadPcbZone::QIcadPcbZone(QIlib::AbstractNode *node)
1113 1113 :QIcadAbstractNodeWrapper(node)
1114 1114 {
1115 1115 this->setNode(node);
1116 1116 }
1117 1117
1118 1118 void QIlib::QIcadPcbZone::setNode(QIlib::AbstractNode *node)
1119 1119 {
1120 1120 if(node->name==QIlib::Lexique::zone_c)
1121 1121 {
1122 1122 this->p_node = node;
1123 for(int i=0;i<node->nodes.count();i++)
1124 {
1125 if(node->nodes.at(i)->name==QIlib::Lexique::polygon_c)
1126 {
1127 this->polygon.setNode(node->nodes.at(i));
1128 }
1129 if(node->nodes.at(i)->name==QIlib::Lexique::filled_polygon_c)
1130 {
1131 this->filledPolygon.setNode(node->nodes.at(i));
1132 }
1133 if(node->nodes.at(i)->name==QIlib::Lexique::layer_c)
1134 {
1135 this->layer.setNode(node->nodes.at(i));
1136 }
1137 }
1138 }
1139 }
1140
1141
1142 QIlib::QIcadPcbPolygonPoint::QIcadPcbPolygonPoint(QIlib::AbstractNode *node)
1143 :QIcadAbstractNodeWrapper(node)
1144 {
1145 this->p_pos.setX(0.0);
1146 this->p_pos.setY(0.0);
1147 this->setNode(node);
1148 }
1149
1150 void QIlib::QIcadPcbPolygonPoint::setNode(QIlib::AbstractNode *node)
1151 {
1152 if(node->name==QIlib::Lexique::xy_c)
1153 {
1154 this->p_node = node;
1155 this->p_pos = nodeTo2DCoords(node);
1123 1156 }
1124 1157 }
1125 1158
1126 1159
1160 QIlib::QIcadPcbPolygon::QIcadPcbPolygon(QIlib::AbstractNode *node)
1161 :QIcadAbstractNodeWrapper(node)
1162 {
1163 this->setNode(node);
1164 }
1165
1166 void QIlib::QIcadPcbPolygon::setNode(QIlib::AbstractNode *node)
1167 {
1168 if(node->name==QIlib::Lexique::polygon_c)
1169 {
1170 this->p_node = node;
1171 this->p_filled = false;
1172 for(int i=0;i<node->nodes.count();i++)
1173 {
1174 if(node->nodes.at(i)->name==QIlib::Lexique::pts_c)
1175 {
1176 this->points.setNode(node->nodes.at(i));
1177 }
1178 }
1179 }
1180 if(node->name==QIlib::Lexique::filled_polygon_c)
1181 {
1182 this->p_node = node;
1183 this->p_filled = true;
1184 for(int i=0;i<node->nodes.count();i++)
1185 {
1186 if(node->nodes.at(i)->name==QIlib::Lexique::pts_c)
1187 {
1188 this->points.setNode(node->nodes.at(i));
1189 }
1190 }
1191 }
1192 }
1193
1194 QIlib::QIcadPcbPolygonPoints::QIcadPcbPolygonPoints(QIlib::AbstractNode *node)
1195 :QIcadAbstractNodeWrapper(node)
1196 {
1197 this->setNode(node);
1198 }
1199
1200 void QIlib::QIcadPcbPolygonPoints::setNode(QIlib::AbstractNode *node)
1201 {
1202 this->clrPoints();
1203 if(node->name==QIlib::Lexique::pts_c)
1204 {
1205 this->p_node = node;
1206 for(int i=0;i<node->nodes.count();i++)
1207 {
1208 if(node->nodes.at(i)->name==QIlib::Lexique::xy_c)
1209 {
1210 this->apendPoint(node->nodes.at(i));
1211 }
1212 }
1213 }
1214 }
1215
1216 void QIlib::QIcadPcbPolygonPoints::clrPoints()
1217 {
1218 while(points.count())
1219 {
1220 QIcadPcbPolygonPoint* point;
1221 point = points.last();
1222 points.removeLast();
1223 delete point;
1224 }
1225 }
1226
1227 void QIlib::QIcadPcbPolygonPoints::apendPoint(QIlib::AbstractNode *node)
1228 {
1229 if(node->name==QIlib::Lexique::xy_c)
1230 {
1231 this->points.append(new QIcadPcbPolygonPoint(node));
1232 }
1233 }
1234
1127 1235 const QPointF QIlib::nodeTo2DCoords(QIlib::AbstractNode *node)
1128 1236 {
1129 1237 QPointF point;
1130 1238 QStringList coords=node->Values;
1131 1239 if(coords.count()>=2)
1132 1240 {
1133 1241 point.setX(coords.at(0).toDouble());
1134 1242 point.setY(coords.at(1).toDouble());
1135 1243 }
1136 1244 return point;
1137 1245 }
1138 1246
1139 1247
1140 1248 double QIlib::nodeValueToDouble(QIlib::AbstractNode *node, int index)
1141 1249 {
1142 1250 if(node->Values.count()>index)
1143 1251 {
1144 1252 return node->Values.at(index).toDouble();
1145 1253 }
1146 1254 return 0.0;
1147 1255 }
1148 1256
1149 1257
1150 1258 int QIlib::nodeValueToInt(QIlib::AbstractNode *node, int index)
1151 1259 {
1152 1260 if(node->Values.count()>index)
1153 1261 {
1154 1262 return node->Values.at(index).toInt();
1155 1263 }
1156 1264 return 0;
1157 1265 }
1158 1266
1159 1267
1160 1268 QIlib::QIcadPcbLayer::QIcadPcbLayer(QIlib::AbstractNode *node)
1161 1269 :QIcadAbstractNodeWrapper(node)
1162 1270 {
1163 1271 this->p_index = QString(this->p_node->name).remove('(').toInt();
1164 1272 if(this->p_node->Values.count()>=1)
1165 1273 {
1166 1274 this->p_name = this->p_node->Values.at(0);
1167 1275 }
1168 1276 if(this->p_node->Values.count()>=2)
1169 1277 {
1170 1278 QString typestr=this->p_node->Values.at(1);
1171 1279 this->p_type = none;
1172 1280 if(!typestr.compare("signal"))
1173 1281 {
1174 1282 this->p_type = signal;
1175 1283 }
1176 1284 else
1177 1285 if(!typestr.compare("user"))
1178 1286 {
1179 1287 this->p_type = user;
1180 1288 }
1181 1289 }
1182 1290 }
1183 1291
1184 1292
1185 1293 const QSizeF QIlib::nodeTo2DSize(QIlib::AbstractNode *node)
1186 1294 {
1187 1295 QSizeF size;
1188 1296 QStringList sz=node->Values;
1189 1297 if(sz.count()>=2)
1190 1298 {
1191 1299 size.setWidth(sz.at(0).toDouble());
1192 1300 size.setHeight(sz.at(1).toDouble());
1193 1301 }
1194 1302 return size;
1195 1303 }
1304
1305
1306
1307
1308
Show file before | Show file after | Hide comments
@@ -1,498 +1,539
1 1 /*------------------------------------------------------------------------------
2 2 -- This file is a part of the Kicad Tools Software
3 3 -- Copyright (C) 2014, Plasma Physics Laboratory - CNRS
4 4 --
5 5 -- This program is free software; you can redistribute it and/or modify
6 6 -- it under the terms of the GNU General Public License as published by
7 7 -- the Free Software Foundation; either version 2 of the License, or
8 8 -- (at your option) any later version.
9 9 --
10 10 -- This program is distributed in the hope that it will be useful,
11 11 -- but WITHOUT ANY WARRANTY; without even the implied warranty of
12 12 -- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 13 -- GNU General Public License for more details.
14 14 --
15 15 -- You should have received a copy of the GNU General Public License
16 16 -- along with this program; if not, write to the Free Software
17 17 -- Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
18 18 -------------------------------------------------------------------------------*/
19 19 /*-- Author : Alexis Jeandet
20 20 -- Mail : alexis.jeandet@member.fsf.org
21 21 ----------------------------------------------------------------------------*/
22 22 #ifndef QICADPCB_H
23 23 #define QICADPCB_H
24 24 #include <QString>
25 25 #include <QStringList>
26 26 #include <QList>
27 27 #include <QFile>
28 28 #include <parsers/lispLike_driver.h>
29 29 #include <qicadlisplikelexique.h>
30 30 #include <QPointF>
31 31 #include <QRectF>
32 32
33 33 namespace QIlib{
34 34 const QPointF nodeTo2DCoords(QIlib::AbstractNode* node);
35 35 const QSizeF nodeTo2DSize(QIlib::AbstractNode* node);
36 36 double nodeValueToDouble(QIlib::AbstractNode* node,int index=0);
37 37 int nodeValueToInt(QIlib::AbstractNode* node,int index=0);
38 38
39 39 class QIcadAbstractPcbLine : public QIcadAbstractNodeWrapper
40 40 {
41 41 public:
42 42 QIcadAbstractPcbLine(QIlib::AbstractNode* node)
43 43 :QIcadAbstractNodeWrapper(node)
44 44 {}
45 45 QIcadAbstractPcbLine(){}
46 46 virtual const QPointF& startPos(){return p_startpos;}
47 47 virtual const QPointF& stopPos(){return p_stoppos;}
48 48 virtual double width(){return p_width;}
49 49 virtual const QStringList& layers(){return p_layers;}
50 50 protected:
51 51 double p_width;
52 52 QPointF p_startpos;
53 53 QPointF p_stoppos;
54 54 QStringList p_layers;
55 55 };
56 56
57 57 class QIcadPcbLayer : public QIcadAbstractNodeWrapper
58 58 {
59 59 public:
60 60 typedef enum
61 61 {
62 62 signal,
63 63 user,
64 64 none
65 65 }layetType_t;
66 66 QIcadPcbLayer(QIlib::AbstractNode* node);
67 67 QIcadPcbLayer(){}
68 68 int index(){return p_index;}
69 69 const QString& name(){return p_name;}
70 70 layetType_t type(){return p_type;}
71 71 protected:
72 72 int p_index;
73 73 QString p_name;
74 74 layetType_t p_type;
75 75 };
76 76
77 77 class QIcadPcbPlotParams : public QIcadAbstractNodeWrapper
78 78 {
79 79 public:
80 80 QIcadPcbPlotParams(QIlib::AbstractNode* node);
81 81 QIcadPcbPlotParams(){}
82 82 QIcadAbstractNodeWrapper layerselection;
83 83 QIcadAbstractNodeWrapper usegerberextensions;
84 84 QIcadAbstractNodeWrapper excludeedgelayer;
85 85 QIcadAbstractNodeWrapper linewidth;
86 86 QIcadAbstractNodeWrapper plotframeref;
87 87 QIcadAbstractNodeWrapper viasonmask;
88 88 QIcadAbstractNodeWrapper mode;
89 89 QIcadAbstractNodeWrapper useauxorigin;
90 90 QIcadAbstractNodeWrapper hpglpennumber;
91 91 QIcadAbstractNodeWrapper hpglpenspeed;
92 92 QIcadAbstractNodeWrapper hpglpendiameter;
93 93 QIcadAbstractNodeWrapper hpglpenoverlay;
94 94 QIcadAbstractNodeWrapper psnegative;
95 95 QIcadAbstractNodeWrapper psa4output;
96 96 QIcadAbstractNodeWrapper plotreference;
97 97 QIcadAbstractNodeWrapper plotvalue;
98 98 QIcadAbstractNodeWrapper plotothertext;
99 99 QIcadAbstractNodeWrapper plotinvisibletext;
100 100 QIcadAbstractNodeWrapper padsonsilk;
101 101 QIcadAbstractNodeWrapper subtractmaskfromsilk;
102 102 QIcadAbstractNodeWrapper outputformat;
103 103 QIcadAbstractNodeWrapper mirror;
104 104 QIcadAbstractNodeWrapper drillshape;
105 105 QIcadAbstractNodeWrapper scaleselection;
106 106 QIcadAbstractNodeWrapper outputdirectory;
107 107 void setNode(QIlib::AbstractNode* node);
108 108 };
109 109
110 110 class QIcadPcbSetup : public QIcadAbstractNodeWrapper
111 111 {
112 112 public:
113 113 QIcadPcbSetup(QIlib::AbstractNode* node);
114 114 QIcadPcbSetup(){}
115 115 QIcadAbstractNodeWrapper last_trace_width;
116 116 QIcadAbstractNodeWrapper trace_clearance;
117 117 QIcadAbstractNodeWrapper zone_clearance;
118 118 QIcadAbstractNodeWrapper zone_45_only;
119 119 QIcadAbstractNodeWrapper trace_min;
120 120 QIcadAbstractNodeWrapper segment_width;
121 121 QIcadAbstractNodeWrapper edge_width;
122 122 QIcadAbstractNodeWrapper via_size;
123 123 QIcadAbstractNodeWrapper via_dril;
124 124 QIcadAbstractNodeWrapper via_min_size;
125 125 QIcadAbstractNodeWrapper via_min_drill;
126 126 QIcadAbstractNodeWrapper uvia_size;
127 127 QIcadAbstractNodeWrapper uvia_drill;
128 128 QIcadAbstractNodeWrapper uvias_allowed;
129 129 QIcadAbstractNodeWrapper uvia_min_size;
130 130 QIcadAbstractNodeWrapper uvia_min_drill;
131 131 QIcadAbstractNodeWrapper pcb_text_width;
132 132 QIcadAbstractNodeWrapper pcb_text_size;
133 133 QIcadAbstractNodeWrapper mod_edge_width;
134 134 QIcadAbstractNodeWrapper mod_text_size;
135 135 QIcadAbstractNodeWrapper mod_text_width;
136 136 QIcadAbstractNodeWrapper pad_size;
137 137 QIcadAbstractNodeWrapper pad_drill;
138 138 QIcadAbstractNodeWrapper pad_to_mask_clearance;
139 139 QIcadAbstractNodeWrapper aux_axis_origin;
140 140 QIcadAbstractNodeWrapper visible_elements;
141 141 QIcadPcbPlotParams plotParams;
142 142 void setNode(QIlib::AbstractNode* node);
143 143 double defaultViaDrillSize(){return p_defaultViaDrillSize;}
144 144 private:
145 145 double p_defaultViaDrillSize;
146 146 };
147 147
148 148 class QIcadPcbNetClass : public QIcadAbstractNodeWrapper
149 149 {
150 150 public:
151 151 QIcadPcbNetClass(QIlib::AbstractNode* node);
152 152 QIcadPcbNetClass(){}
153 153 QIcadAbstractNodeWrapper clearance;
154 154 QIcadAbstractNodeWrapper trace_width;
155 155 QIcadAbstractNodeWrapper via_dia;
156 156 QIcadAbstractNodeWrapper via_drill;
157 157 QIcadAbstractNodeWrapper uvia_dia;
158 158 QIcadAbstractNodeWrapper uvia_drill;
159 159 QList<QIcadAbstractNodeWrapper*> nets;
160 160 void setNode(QIlib::AbstractNode* node);
161 161 };
162 162
163 163 class QIcadPcbFpTextEffectsFont : public QIcadAbstractNodeWrapper
164 164 {
165 165 public:
166 166 QIcadPcbFpTextEffectsFont(QIlib::AbstractNode* node);
167 167 QIcadAbstractNodeWrapper size;
168 168 void setNode(QIlib::AbstractNode* node);
169 169 };
170 170
171 171 class QIcadPcbFpTextEffects : public QIcadAbstractNodeWrapper
172 172 {
173 173 public:
174 174 QIcadPcbFpTextEffects(QIlib::AbstractNode* node);
175 175 QIcadPcbFpTextEffects(){}
176 176 QIcadAbstractNodeWrapper font;
177 177 QIcadAbstractNodeWrapper thickness;
178 178 void setNode(QIlib::AbstractNode* node);
179 179 };
180 180
181 181 class QIcadPcbFPText : public QIcadAbstractNodeWrapper
182 182 {
183 183 public:
184 184 QIcadPcbFPText(QIlib::AbstractNode* node);
185 185 QIcadPcbFPText(){}
186 186 QIcadAbstractNodeWrapper at;
187 187 QIcadAbstractNodeWrapper layer;
188 188 QIcadPcbFpTextEffects effects;
189 189 void setNode(QIlib::AbstractNode* node);
190 190 };
191 191
192 192 class QIcadPcbModuleModel : public QIcadAbstractNodeWrapper
193 193 {
194 194 public:
195 195 QIcadPcbModuleModel(QIlib::AbstractNode* node);
196 196 QIcadPcbModuleModel(){}
197 197 QIcadAbstractNodeWrapper at;
198 198 QIcadAbstractNodeWrapper scale;
199 199 QIcadAbstractNodeWrapper rotate;
200 200 void setNode(QIlib::AbstractNode* node);
201 201 };
202 202
203 203 class QIcadPcbDimension : public QIcadAbstractNodeWrapper
204 204 {
205 205 public:
206 206 QIcadPcbDimension(QIlib::AbstractNode* node);
207 207 QIcadPcbDimension(){}
208 208 QIcadAbstractNodeWrapper width;
209 209 QIcadAbstractNodeWrapper layer;
210 210 QIcadAbstractNodeWrapper gr_text;
211 211 QIcadAbstractNodeWrapper feature1;
212 212 QIcadAbstractNodeWrapper feature2;
213 213 QIcadAbstractNodeWrapper crossbar;
214 214 QIcadAbstractNodeWrapper arrow1a;
215 215 QIcadAbstractNodeWrapper arrow1b;
216 216 QIcadAbstractNodeWrapper arrow2a;
217 217 QIcadAbstractNodeWrapper arrow2b;
218 218 void setNode(QIlib::AbstractNode* node);
219 219 };
220 220
221 221 class QIcadPcbPad : public QIcadAbstractNodeWrapper
222 222 {
223 223 public:
224 224 typedef enum
225 225 {
226 226 rectangle,
227 227 circle
228 228 }padShape;
229 229 QIcadPcbPad(QIlib::AbstractNode* node,double modAngle=0.0);
230 230 QIcadPcbPad(){}
231 231 QIcadAbstractNodeWrapper at;
232 232 QIcadAbstractNodeWrapper sizeNode;
233 233 QIcadAbstractNodeWrapper layer;
234 234 QIcadAbstractNodeWrapper netNode;
235 235 QIcadAbstractNodeWrapper drillNode;
236 236 const QStringList& layers(){return p_layers;}
237 237 const QSizeF& size(){return p_size;}
238 238 const QPointF& pos(){return p_pos;}
239 239 double drill(){return p_drill;}
240 240 void setModuleAngle(double modAngle){p_Mod_angle= modAngle;}
241 241 double angle(){return - (p_angle - p_Mod_angle);}
242 242 padShape shape(){return p_shape;}
243 243 int padNumber(){return p_padNumber;}
244 244 void setNode(QIlib::AbstractNode* node);
245 245 private:
246 246 int p_padNumber;
247 247 padShape p_shape;
248 248 double p_drill;
249 249 double p_angle;
250 250 // Dirty fix to transform pad angle from
251 251 // PCB coordinates to Module coordinates
252 252 double p_Mod_angle;
253 253 QSizeF p_size;
254 254 QPointF p_pos;
255 255 QStringList p_layers;
256 256 };
257 257
258 258 class QIcadPcbFPLine : public QIcadAbstractPcbLine
259 259 {
260 260 public:
261 261 QIcadPcbFPLine(QIlib::AbstractNode* node);
262 262 QIcadPcbFPLine(){}
263 263 QIcadAbstractNodeWrapper start;
264 264 QIcadAbstractNodeWrapper end;
265 265 QIcadAbstractNodeWrapper layer;
266 266 QIcadAbstractNodeWrapper width;
267 267 void setNode(QIlib::AbstractNode* node);
268 268 };
269 269
270 270 class QIcadPcbFPCircle : public QIcadAbstractNodeWrapper
271 271 {
272 272 public:
273 273 QIcadPcbFPCircle(QIlib::AbstractNode* node);
274 274 QIcadPcbFPCircle(){}
275 275 QIcadAbstractNodeWrapper center;
276 276 QIcadAbstractNodeWrapper end;
277 277 QIcadAbstractNodeWrapper layer;
278 278 QIcadAbstractNodeWrapper width;
279 279 void setNode(QIlib::AbstractNode* node);
280 280 };
281 281
282 282 class QIcadPcbModule : public QIcadAbstractNodeWrapper
283 283 {
284 284 public:
285 285 QIcadPcbModule(QIlib::AbstractNode* node);
286 286 QIcadPcbModule(){}
287 287 const QPointF& pos();
288 288 double angle();
289 289 QIcadAbstractNodeWrapper layer;
290 290 QIcadAbstractNodeWrapper tedit;
291 291 QIcadAbstractNodeWrapper tstamp;
292 292 QIcadAbstractNodeWrapper at;
293 293 QIcadAbstractNodeWrapper descr;
294 294 QIcadAbstractNodeWrapper tags;
295 295 QIcadAbstractNodeWrapper path;
296 296 QIcadAbstractNodeWrapper attr;
297 297 QList<QIcadPcbFPText*> fp_texts;
298 298 QList<QIcadPcbFPLine*> fp_lines;
299 299 QList<QIcadPcbFPCircle*> fp_circles;
300 300 QList<QIcadPcbPad*> pads;
301 301 QIcadPcbModuleModel model;
302 302 void setNode(QIlib::AbstractNode* node);
303 303 void clrPads();
304 304 void apendPad(QIlib::AbstractNode* node);
305 305 void clrTexts();
306 306 void apendText(QIlib::AbstractNode* node);
307 307 void clrLines();
308 308 void apendLine(QIlib::AbstractNode* node);
309 309 void clrCircles();
310 310 void apendCircle(QIlib::AbstractNode* node);
311 311 private:
312 312 void updatePadsAngle();
313 313 QPointF p_pos;
314 314 double p_angle;
315 315 };
316 316
317 317 class QIcadPcbSegment : public QIcadAbstractPcbLine
318 318 {
319 319 public:
320 320 QIcadPcbSegment(QIlib::AbstractNode* node);
321 321 QIcadPcbSegment(){}
322 322 QIcadAbstractNodeWrapper start;
323 323 QIcadAbstractNodeWrapper end;
324 324 QIcadAbstractNodeWrapper width;
325 325 QIcadAbstractNodeWrapper layer;
326 326 QIcadAbstractNodeWrapper net;
327 327 void setNode(QIlib::AbstractNode* node);
328 328 };
329 329
330 330 class QIcadPcbVia : public QIcadAbstractNodeWrapper
331 331 {
332 332 public:
333 333 QIcadPcbVia(QIlib::AbstractNode* node, double defaultDrill=0);
334 334 QIcadPcbVia(){}
335 335 QIcadAbstractNodeWrapper at;
336 336 QIcadAbstractNodeWrapper sizeNode;
337 337 QIcadAbstractNodeWrapper drillNode;
338 338 QIcadAbstractNodeWrapper layersNode;
339 339 QIcadAbstractNodeWrapper net;
340 340 QIcadAbstractNodeWrapper tstamp;
341 341 void setNode(QIlib::AbstractNode* node);
342 342 const QStringList& layers(){return p_layers;}
343 343 const QSizeF& size(){return p_size;}
344 344 const QPointF& pos(){return p_pos;}
345 345 double drill(){return p_drill;}
346 346 private:
347 347 double p_drill;
348 348 QSizeF p_size;
349 349 QPointF p_pos;
350 350 QStringList p_layers;
351 351 };
352 352
353 353 class QIcadPcbLine : public QIcadAbstractPcbLine
354 354 {
355 355 public:
356 356 QIcadPcbLine(QIlib::AbstractNode* node);
357 357 QIcadPcbLine(){}
358 358 QIcadAbstractNodeWrapper start;
359 359 QIcadAbstractNodeWrapper end;
360 360 QIcadAbstractNodeWrapper angle;
361 361 QIcadAbstractNodeWrapper layer;
362 362 QIcadAbstractNodeWrapper width;
363 363 void setNode(QIlib::AbstractNode* node);
364 364 };
365 365
366
367 class QIcadPcbPolygonPoint : public QIcadAbstractNodeWrapper
368 {
369 public:
370 QIcadPcbPolygonPoint(QIlib::AbstractNode* node);
371 QIcadPcbPolygonPoint(){}
372 void setNode(QIlib::AbstractNode* node);
373 const QPointF& pos(){return p_pos;}
374 private:
375 QPointF p_pos;
376 };
377
378
379 class QIcadPcbPolygonPoints : public QIcadAbstractNodeWrapper
380 {
381 public:
382 QIcadPcbPolygonPoints(QIlib::AbstractNode* node);
383 QIcadPcbPolygonPoints(){}
384 void setNode(QIlib::AbstractNode* node);
385 QList<QIcadPcbPolygonPoint*> points;
386 void clrPoints();
387 void apendPoint(QIlib::AbstractNode* node);
388 private:
389 QPointF p_pos;
390 };
391
392 class QIcadPcbPolygon : public QIcadAbstractNodeWrapper
393 {
394 public:
395 QIcadPcbPolygon(QIlib::AbstractNode* node);
396 QIcadPcbPolygon(){}
397 QIcadPcbPolygonPoints points;
398 void setNode(QIlib::AbstractNode* node);
399 bool isFilled(){return p_filled;}
400 private:
401 bool p_filled;
402 };
403
366 404 class QIcadPcbZone : public QIcadAbstractNodeWrapper
367 405 {
368 406 public:
369 407 QIcadPcbZone(QIlib::AbstractNode* node);
370 408 QIcadPcbZone(){}
409 QIcadPcbPolygon polygon;
410 QIcadPcbPolygon filledPolygon;
411 QIcadAbstractNodeWrapper layer;
371 412 void setNode(QIlib::AbstractNode* node);
372 413 };
373 414
374 415 class QIcadPcbArc : public QIcadAbstractNodeWrapper
375 416 {
376 417 public:
377 418 QIcadPcbArc(QIlib::AbstractNode* node);
378 419 QIcadPcbArc(){}
379 420 QIcadAbstractNodeWrapper start;
380 421 QIcadAbstractNodeWrapper end;
381 422 QIcadAbstractNodeWrapper angle;
382 423 QIcadAbstractNodeWrapper layer;
383 424 QIcadAbstractNodeWrapper width;
384 425 void setNode(QIlib::AbstractNode* node);
385 426 };
386 427
387 428 class QIcadPcbCircle : public QIcadAbstractNodeWrapper
388 429 {
389 430 public:
390 431 QIcadPcbCircle(QIlib::AbstractNode* node);
391 432 QIcadPcbCircle(){}
392 433 QIcadAbstractNodeWrapper center;
393 434 QIcadAbstractNodeWrapper end;
394 435 QIcadAbstractNodeWrapper layer;
395 436 QIcadAbstractNodeWrapper width;
396 437 void setNode(QIlib::AbstractNode* node);
397 438 };
398 439
399 440 class QIcadPcbText : public QIcadAbstractNodeWrapper
400 441 {
401 442 public:
402 443 QIcadPcbText(QIlib::AbstractNode* node);
403 444 QIcadPcbText(){}
404 445 QIcadAbstractNodeWrapper at;
405 446 QIcadAbstractNodeWrapper layer;
406 447 QIcadAbstractNodeWrapper width;
407 448 QIcadPcbFpTextEffects effects;
408 449 void setNode(QIlib::AbstractNode* node);
409 450 };
410 451
411 452 class QIcadPcbLayers : public QIcadAbstractNodeWrapper
412 453 {
413 454 public:
414 455 QIcadPcbLayers(QIlib::AbstractNode* node);
415 456 QIcadPcbLayers(){}
416 457 QList<QIcadPcbLayer*> layers;
417 458 void setNode(QIlib::AbstractNode* node);
418 459 void clrLayers();
419 460 void apendLayer(QIlib::AbstractNode* node);
420 461 };
421 462
422 463 class QIcadPcbGeneralInfo : public QIcadAbstractNodeWrapper
423 464 {
424 465 public:
425 466 QIcadPcbGeneralInfo(QIlib::AbstractNode* node);
426 467 QIcadPcbGeneralInfo(){}
427 468 QIcadAbstractNodeWrapper links;
428 469 QIcadAbstractNodeWrapper no_connections;
429 470 QIcadAbstractNodeWrapper area;
430 471 QIcadAbstractNodeWrapper thickness;
431 472 QIcadAbstractNodeWrapper drawings;
432 473 QIcadAbstractNodeWrapper tracks;
433 474 QIcadAbstractNodeWrapper zones;
434 475 QIcadAbstractNodeWrapper modules;
435 476 QIcadAbstractNodeWrapper nets;
436 477 void setNode(QIlib::AbstractNode* node);
437 478 };
438 479
439 480 class QIcadPcbRoot : public QIcadAbstractNodeWrapper
440 481 {
441 482 public:
442 483 QIcadPcbRoot(QIlib::AbstractNode* node);
443 484 QIcadAbstractNodeWrapper version;
444 485 QIcadAbstractNodeWrapper host;
445 486 QIcadAbstractNodeWrapper page;
446 487 QIcadPcbGeneralInfo general;
447 488 QIcadPcbLayers layers;
448 489 QIcadPcbSetup setup;
449 490 QList<QIcadAbstractNodeWrapper*> nets;
450 491 QList<QIcadPcbModule*> modules;
451 492 QList<QIcadPcbDimension*> dimensions;
452 493 QList<QIcadPcbLine*> lines;
453 494 QList<QIcadPcbSegment*> segments;
454 495 QList<QIcadPcbVia*> vias;
455 496 QList<QIcadPcbArc*> arcs;
456 497 QList<QIcadPcbCircle*> circles;
457 498 QList<QIcadPcbText*> texts;
458 499 QList<QIcadPcbZone*> zones;
459 500 void setNode(QIlib::AbstractNode* node);
460 501 void clrNets();
461 502 void apendNet(QIlib::AbstractNode* node);
462 503 void clrModules();
463 504 void apendModule(QIlib::AbstractNode* node);
464 505 void clrDimensions();
465 506 void apendDimension(QIlib::AbstractNode* node);
466 507 void apendLine(QIlib::AbstractNode* node);
467 508 void clrLines();
468 509 void clrSegments();
469 510 void apendSegment(QIlib::AbstractNode* node);
470 511 void clrVias();
471 512 void apendVia(QIlib::AbstractNode* node);
472 513 void clrArcs();
473 514 void apendArc(QIlib::AbstractNode* node);
474 515 void clrCircles();
475 516 void apendCircle(QIlib::AbstractNode* node);
476 517 void clrTexts();
477 518 void apendText(QIlib::AbstractNode* node);
478 519 void clrZones();
479 520 void apendZone(QIlib::AbstractNode* node);
480 521 };
481 522
482 523 class QIcadPcb : private lispLike_Driver
483 524 {
484 525 public:
485 526 QIcadPcb();
486 527 bool parsePcb(const QString& pcb);
487 528 QString toString();
488 529 QString fileName;
489 530 QString print();
490 531
491 532 QIcadPcbRoot* pcbRoot;
492 533 private:
493 534 void updateConcreteTree();
494 535 };
495 536
496 537
497 538 }
498 539 #endif // QICADPCB_H
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@@ -1,42 +1,44
1 1 #-------------------------------------------------
2 2 #
3 3 # Project created by QtCreator 2015-06-11T21:37:25
4 4 #
5 5 #-------------------------------------------------
6 6
7 7 QT += core gui opengl
8 8 CONFIG += qilib
9 9
10 10 greaterThan(QT_MAJOR_VERSION, 4): QT += widgets
11 11
12 12 TARGET = PCBView
13 13 TEMPLATE = app
14 14
15 15 MOC_DIR = moc
16 16 RCC_DIR = resources
17 17 OBJECTS_DIR = obj
18 18 DESTDIR = ../../bin
19 19
20 20 INCLUDEPATH += $$top_builddir/../../qilib \
21 21 $$top_srcdir/../../qilib
22 22
23 23 LIBS += -L../../bin -lQIlib
24 24
25 25 SOURCES += main.cpp\
26 26 mainwindow.cpp \
27 27 pcbgraphicview.cpp \
28 pcbrectpad.cpp \
29 28 pcbmodule.cpp \
30 29 pcbline.cpp \
31 30 pcbcontext.cpp \
32 pcbvia.cpp
31 pcbvia.cpp \
32 pcbpad.cpp \
33 pcbzone.cpp
33 34
34 35 HEADERS += mainwindow.h \
35 36 pcbgraphicview.h \
36 pcbrectpad.h \
37 37 pcbmodule.h \
38 38 pcbline.h \
39 39 pcbcontext.h \
40 pcbvia.h
40 pcbvia.h \
41 pcbpad.h \
42 pcbzone.h
41 43
42 44 FORMS += mainwindow.ui
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@@ -1,105 +1,108
1 1 /*------------------------------------------------------------------------------
2 2 -- This file is a part of the Kicad Tools Software
3 3 -- Copyright (C) 2015, Plasma Physics Laboratory - CNRS
4 4 --
5 5 -- This program is free software; you can redistribute it and/or modify
6 6 -- it under the terms of the GNU General Public License as published by
7 7 -- the Free Software Foundation; either version 2 of the License, or
8 8 -- (at your option) any later version.
9 9 --
10 10 -- This program is distributed in the hope that it will be useful,
11 11 -- but WITHOUT ANY WARRANTY; without even the implied warranty of
12 12 -- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 13 -- GNU General Public License for more details.
14 14 --
15 15 -- You should have received a copy of the GNU General Public License
16 16 -- along with this program; if not, write to the Free Software
17 17 -- Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
18 18 -------------------------------------------------------------------------------*/
19 19 /*-- Author : Alexis Jeandet
20 20 -- Mail : alexis.jeandet@member.fsf.org
21 21 ----------------------------------------------------------------------------*/
22 22 #include "mainwindow.h"
23 23 #include "ui_mainwindow.h"
24 24 #include "pcbmodule.h"
25 25 #include "pcbline.h"
26 26 #include "pcbvia.h"
27 #include "pcbzone.h"
27 28 #include <QFileDialog>
28 29
29 30
30 31 MainWindow::MainWindow(QWidget *parent) :
31 32 QMainWindow(parent),
32 33 ui(new Ui::MainWindow)
33 34 {
34 35 ui->setupUi(this);
35 36 this->p_scene = new QGraphicsScene();
37 // this->p_scene->setItemIndexMethod(QGraphicsScene::NoIndex);
36 38 this->context = new PCBContext();
37 39 this->ui->graphicsView->setScene(this->p_scene);
38 40 this->pcbDriver =NULL;
39 41 connect(this->ui->actionRedraw,SIGNAL(triggered(bool)),this,SLOT(redraw()));
40 42 connect(this->ui->actionOpen,SIGNAL(triggered(bool)),this,SLOT(openFile()));
41 43 }
42 44
43 45 MainWindow::~MainWindow()
44 46 {
45 47 delete ui;
46 48 }
47 49
48 50 void MainWindow::redraw()
49 51 {
50 52 this->p_scene->update();
51 53 }
52 54
53 55 void MainWindow::openFile()
54 56 {
55 57 QString file = QFileDialog::getOpenFileName(this,tr("Open kicad PCB file"),
56 58 "",
57 59 tr("PCB file (*.kicad_pcb)"));
58 60 if(QFile::exists(file))
59 61 loadFile(file);
60 62 }
61 63
62 64 void MainWindow::changeEvent(QEvent *e)
63 65 {
64 66 QMainWindow::changeEvent(e);
65 67 switch (e->type()) {
66 68 case QEvent::LanguageChange:
67 69 ui->retranslateUi(this);
68 70 break;
69 71 default:
70 72 break;
71 73 }
72 74 }
73 75
74 76 void MainWindow::loadFile(const QString &file)
75 77 {
76 78 this->p_scene->setSceneRect(0, 0, 500, 200);
77 79 if(pcbDriver!=NULL)delete pcbDriver;
78 80 pcbDriver = new QIlib::QIcadPcb();
79 81 this->context->clear();
80 82 this->p_scene->clear();
81 // pcbDriver.parsePcb("/opt/kicadTools/test/testFiles/pcb2.kicad_pcb");
82 // pcbDriver.parsePcb("/home/jeandet/Documents/PCB/ADC_STAMP/ADC_STAMP.kicad_pcb");
83 83 pcbDriver->parsePcb(file);
84 // pcbDriver.parsePcb("/usr/share/kicad/demos/kit-dev-coldfire-xilinx_5213/kit-dev-coldfire-xilinx_5213.kicad_pcb");
85 84 for(int i=0;i<pcbDriver->pcbRoot->layers.layers.count();i++)
86 85 {
87 86 this->context->addlayer(pcbDriver->pcbRoot->layers.layers.at(i)->name(),pcbDriver->pcbRoot->layers.layers.at(i)->index());
88 87 }
89 88 for(int i=0;i<pcbDriver->pcbRoot->modules.count();i++)
90 89 {
91 90 this->p_scene->addItem(new PCBModule(pcbDriver->pcbRoot->modules.at(i),this->context));
92 91 }
93 92 for(int i=0;i<pcbDriver->pcbRoot->lines.count();i++)
94 93 {
95 94 this->p_scene->addItem(new PCBLine((QIlib::QIcadAbstractPcbLine*)pcbDriver->pcbRoot->lines.at(i),this->context));
96 95 }
97 96 for(int i=0;i<pcbDriver->pcbRoot->segments.count();i++)
98 97 {
99 98 this->p_scene->addItem(new PCBLine((QIlib::QIcadAbstractPcbLine*)pcbDriver->pcbRoot->segments.at(i),this->context));
100 99 }
101 100 for(int i=0;i<pcbDriver->pcbRoot->vias.count();i++)
102 101 {
103 102 this->p_scene->addItem(new PCBVia(pcbDriver->pcbRoot->vias.at(i),this->context));
104 103 }
104 for(int i=0;i<pcbDriver->pcbRoot->zones.count();i++)
105 {
106 this->p_scene->addItem(new PCBZone(pcbDriver->pcbRoot->zones.at(i),this->context));
107 }
105 108 }
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@@ -1,145 +1,147
1 1 /*------------------------------------------------------------------------------
2 2 -- This file is a part of the Kicad Tools Software
3 3 -- Copyright (C) 2015, Plasma Physics Laboratory - CNRS
4 4 --
5 5 -- This program is free software; you can redistribute it and/or modify
6 6 -- it under the terms of the GNU General Public License as published by
7 7 -- the Free Software Foundation; either version 2 of the License, or
8 8 -- (at your option) any later version.
9 9 --
10 10 -- This program is distributed in the hope that it will be useful,
11 11 -- but WITHOUT ANY WARRANTY; without even the implied warranty of
12 12 -- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 13 -- GNU General Public License for more details.
14 14 --
15 15 -- You should have received a copy of the GNU General Public License
16 16 -- along with this program; if not, write to the Free Software
17 17 -- Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
18 18 -------------------------------------------------------------------------------*/
19 19 /*-- Author : Alexis Jeandet
20 20 -- Mail : alexis.jeandet@member.fsf.org
21 21 ----------------------------------------------------------------------------*/
22 22 #include "pcbgraphicview.h"
23 23
24 24 #include <math.h>
25 25 #include <QGLWidget>
26 #include <QOpenGLWidget>
27 #include <QPixmapCache>
26 28
27 29 PCBGraphicView::PCBGraphicView(QWidget *parent)
28 30 :QGraphicsView(parent)
29 31 {
30
31 32 this->setRenderHint(QPainter::Antialiasing, true);
32 33 this->setDragMode(QGraphicsView::RubberBandDrag);
33 34 this->setOptimizationFlags(QGraphicsView::DontSavePainterState);
34 35 this->setViewportUpdateMode(QGraphicsView::SmartViewportUpdate);
35 36
36 37 this->setContextMenuPolicy(Qt::ActionsContextMenu);
37 38 this->setTransformationAnchor(AnchorUnderMouse);
38 39 this->scale(qreal(0.8), qreal(0.8));
39 40 this->setRubberBandSelectionMode(Qt::ContainsItemBoundingRect);
40 this->setDragMode(RubberBandDrag);
41 41 this->setHorizontalScrollBarPolicy(Qt::ScrollBarAlwaysOff);
42 42 this->setVerticalScrollBarPolicy(Qt::ScrollBarAlwaysOff);
43
43 // this->setViewport(new QOpenGLWidget());
44 QPixmapCache::setCacheLimit(1024*1024*4);
44 45 this->ctrl_pressed = false;
45 46 this->shift_pressed = false;
46 47 }
47 48
48 49
49 50 void PCBGraphicView::keyPressEvent(QKeyEvent *event)
50 51 {
51 52 switch (event->key()) {
52 53 case Qt::Key_Plus:
53 54 zoomIn();
54 55 break;
55 56 case Qt::Key_Minus:
56 57 zoomOut();
57 58 break;
58 59 case Qt::Key_Shift:
59 60 this->shift_pressed = true;
60 61 break;
61 62 case Qt::Key_Control:
62 63 this->ctrl_pressed = true;
63 64 break;
64 65 default:
65 66 QGraphicsView::keyPressEvent(event);
66 67 }
67 68 }
68 69
69 70 void PCBGraphicView::keyReleaseEvent(QKeyEvent *event)
70 71 {
71 72 switch (event->key()) {
72 73 case Qt::Key_Shift:
73 74 this->shift_pressed = false;
74 75 break;
75 76 case Qt::Key_Control:
76 77 this->ctrl_pressed = false;
77 78 break;
78 79 default:
79 80 QGraphicsView::keyReleaseEvent(event);
80 81 }
81 82 }
82 83
83 84 void PCBGraphicView::wheelEvent(QWheelEvent *event)
84 85 {
85
86 if (event->modifiers() & Qt::ControlModifier)
87 {
88 if (event->orientation()== Qt::Vertical)
89 scaleView(pow((double)2, event->delta() / 240.0));
90 }
91 else
92 {
93 if (event->modifiers() & Qt::ShiftModifier)
86 if (event->modifiers() & Qt::ControlModifier)
94 87 {
95 QWheelEvent* tempevent = new QWheelEvent(event->pos(),(event->delta()/10),event->buttons(),event->modifiers(),Qt::Horizontal);
96 QGraphicsView::wheelEvent(tempevent);
88 event->accept();
89 if (event->orientation()== Qt::Vertical)
90 scaleView(pow((double)2, event->delta() / 240.0));
97 91 }
98 92 else
99 QGraphicsView::wheelEvent(event);
100 }
93 {
94 if (event->modifiers() & Qt::ShiftModifier)
95 {
96 event->accept();
97 QWheelEvent* tempevent = new QWheelEvent(event->pos(),(event->delta()/10),event->buttons(),event->modifiers(),Qt::Horizontal);
98 QGraphicsView::wheelEvent(tempevent);
99 }
100 else
101 QGraphicsView::wheelEvent(event);
102 }
101 103 }
102 104
103 105
104 106
105 107 void PCBGraphicView::drawBackground(QPainter *painter, const QRectF &rect)
106 108 {
107 109 Q_UNUSED(rect);
108 110
109 111 // Shadow
110 112 QRectF sceneRect = this->sceneRect();
111 113 QRectF rightShadow(sceneRect.right(), sceneRect.top() + 20, 20, sceneRect.height());
112 114 QRectF bottomShadow(sceneRect.left() + 20, sceneRect.bottom(), sceneRect.width(), 20);
113 115 if (rightShadow.intersects(rect) || rightShadow.contains(rect))
114 116 painter->fillRect(rightShadow, Qt::darkGray);
115 117 if (bottomShadow.intersects(rect) || bottomShadow.contains(rect))
116 118 painter->fillRect(bottomShadow, Qt::darkGray);
117 119
118 120 // Fill
119 121 QLinearGradient gradient(sceneRect.topLeft(), sceneRect.bottomRight());
120 122 gradient.setColorAt(0, Qt::white);
121 123 gradient.setColorAt(1, Qt::lightGray);
122 124 painter->fillRect(rect.intersected(sceneRect), gradient);
123 125 painter->setBrush(Qt::NoBrush);
124 126 painter->drawRect(sceneRect);
125 127 }
126 128
127 129
128 130 void PCBGraphicView::scaleView(qreal scaleFactor)
129 131 {
130 132 qreal factor = transform().scale(scaleFactor, scaleFactor).mapRect(QRectF(0, 0, 1, 1)).width();
131 133 if (factor < 0.02 || factor > 1000)
132 134 return;
133 135 scale(scaleFactor, scaleFactor);
134 136 }
135 137
136 138
137 139 void PCBGraphicView::zoomIn()
138 140 {
139 141 scaleView(qreal(1.2));
140 142 }
141 143
142 144 void PCBGraphicView::zoomOut()
143 145 {
144 146 scaleView(1 / qreal(1.2));
145 147 }
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@@ -1,54 +1,55
1 1 /*------------------------------------------------------------------------------
2 2 -- This file is a part of the Kicad Tools Software
3 3 -- Copyright (C) 2015, Plasma Physics Laboratory - CNRS
4 4 --
5 5 -- This program is free software; you can redistribute it and/or modify
6 6 -- it under the terms of the GNU General Public License as published by
7 7 -- the Free Software Foundation; either version 2 of the License, or
8 8 -- (at your option) any later version.
9 9 --
10 10 -- This program is distributed in the hope that it will be useful,
11 11 -- but WITHOUT ANY WARRANTY; without even the implied warranty of
12 12 -- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 13 -- GNU General Public License for more details.
14 14 --
15 15 -- You should have received a copy of the GNU General Public License
16 16 -- along with this program; if not, write to the Free Software
17 17 -- Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
18 18 -------------------------------------------------------------------------------*/
19 19 /*-- Author : Alexis Jeandet
20 20 -- Mail : alexis.jeandet@member.fsf.org
21 21 ----------------------------------------------------------------------------*/
22 22 #ifndef PCBGRAPHICVIEW_H
23 23 #define PCBGRAPHICVIEW_H
24 24
25 25 #include <QGraphicsView>
26 26 #include <QObject>
27 27 #include <QWidget>
28 28 #include <QKeyEvent>
29 29 #include <QPainter>
30 30 #include <QMap>
31 #include <QElapsedTimer>
31 32
32 33 class PCBGraphicView : public QGraphicsView
33 34 {
34 35 public:
35 36 PCBGraphicView(QWidget *parent = 0);
36 37 void itemMoved();
37 38
38 39 public slots:
39 40 void zoomIn();
40 41 void zoomOut();
41 42
42 43 protected:
43 44 void keyPressEvent(QKeyEvent *event);
44 45 void keyReleaseEvent(QKeyEvent *event);
45 46 void wheelEvent(QWheelEvent *event);
46 47 void drawBackground(QPainter *painter, const QRectF &rect);
47 48
48 49 void scaleView(qreal scaleFactor);
49 50 private:
50 51 bool ctrl_pressed;
51 52 bool shift_pressed;
52 53 };
53 54
54 55 #endif // PCBGRAPHICVIEW_H
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@@ -1,44 +1,42
1 1 /*------------------------------------------------------------------------------
2 2 -- This file is a part of the Kicad Tools Software
3 3 -- Copyright (C) 2015, Plasma Physics Laboratory - CNRS
4 4 --
5 5 -- This program is free software; you can redistribute it and/or modify
6 6 -- it under the terms of the GNU General Public License as published by
7 7 -- the Free Software Foundation; either version 2 of the License, or
8 8 -- (at your option) any later version.
9 9 --
10 10 -- This program is distributed in the hope that it will be useful,
11 11 -- but WITHOUT ANY WARRANTY; without even the implied warranty of
12 12 -- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 13 -- GNU General Public License for more details.
14 14 --
15 15 -- You should have received a copy of the GNU General Public License
16 16 -- along with this program; if not, write to the Free Software
17 17 -- Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
18 18 -------------------------------------------------------------------------------*/
19 19 /*-- Author : Alexis Jeandet
20 20 -- Mail : alexis.jeandet@member.fsf.org
21 21 ----------------------------------------------------------------------------*/
22 22 #include "pcbmodule.h"
23 23 #include "pcbline.h"
24 #include "pcbrectpad.h"
24 #include "pcbpad.h"
25 25
26 26 PCBModule::PCBModule(QIlib::QIcadPcbModule *moduleNode, PCBContext *context)
27 27 :QGraphicsItemGroup(),context(context)
28 28 {
29 29 this->setCacheMode(QGraphicsItem::DeviceCoordinateCache);
30 30 this->setFlags(ItemIsMovable|ItemIsSelectable|ItemIsFocusable);
31 // this->setFlag(QGraphicsItem::ItemSendsGeometryChanges, true);
32 // this->addToGroup(new QGraphicsRectItem(0,0,2,2));
33 31 this->setPos(moduleNode->pos());
34 32 for(int i=0;i<moduleNode->fp_lines.count();i++)
35 33 {
36 34 this->addToGroup(new PCBLine((QIlib::QIcadAbstractPcbLine*)moduleNode->fp_lines.at(i),moduleNode->pos(),context));
37 35 }
38 36 for(int i=0;i<moduleNode->pads.count();i++)
39 37 {
40 this->addToGroup(new PCBRectPad((QIlib::QIcadPcbPad*)moduleNode->pads.at(i),moduleNode->pos(),context));
38 this->addToGroup(new PCBPad((QIlib::QIcadPcbPad*)moduleNode->pads.at(i),moduleNode->pos(),context));
41 39 }
42 40 this->setRotation(moduleNode->angle());
43 41 }
44 42
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@@ -1,88 +1,88
1 1 /*------------------------------------------------------------------------------
2 2 -- This file is a part of the Kicad Tools Software
3 3 -- Copyright (C) 2015, Plasma Physics Laboratory - CNRS
4 4 --
5 5 -- This program is free software; you can redistribute it and/or modify
6 6 -- it under the terms of the GNU General Public License as published by
7 7 -- the Free Software Foundation; either version 2 of the License, or
8 8 -- (at your option) any later version.
9 9 --
10 10 -- This program is distributed in the hope that it will be useful,
11 11 -- but WITHOUT ANY WARRANTY; without even the implied warranty of
12 12 -- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 13 -- GNU General Public License for more details.
14 14 --
15 15 -- You should have received a copy of the GNU General Public License
16 16 -- along with this program; if not, write to the Free Software
17 17 -- Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
18 18 -------------------------------------------------------------------------------*/
19 19 /*-- Author : Alexis Jeandet
20 20 -- Mail : alexis.jeandet@member.fsf.org
21 21 ----------------------------------------------------------------------------*/
22 #include "pcbrectpad.h"
22 #include "pcbpad.h"
23 23 #include <QPen>
24 24
25 PCBRectPad::PCBRectPad(QIlib::QIcadPcbPad *padNode, PCBContext *context)
25 PCBPad::PCBPad(QIlib::QIcadPcbPad *padNode, PCBContext *context)
26 26 :QGraphicsItemGroup(),padNode(padNode),context(context)
27 27 {
28 28 this->init(QPointF(0.0,0.0));
29 29 }
30 30
31 31
32 32
33 PCBRectPad::PCBRectPad(QIlib::QIcadPcbPad *padNode, QPointF offset, PCBContext *context)
33 PCBPad::PCBPad(QIlib::QIcadPcbPad *padNode, QPointF offset, PCBContext *context)
34 34 :QGraphicsItemGroup(),padNode(padNode),context(context)
35 35 {
36 36 this->init(offset);
37 37 }
38 38
39 void PCBRectPad::init( QPointF offset)
39 void PCBPad::init( QPointF offset)
40 40 {
41 41 this->setCacheMode(QGraphicsItem::DeviceCoordinateCache);
42 42 offset-=QPointF(this->padNode->size().width()/2,this->padNode->size().height()/2);
43 43 if(this->padNode->shape()==QIlib::QIcadPcbPad::rectangle)
44 44 {
45 45 QRectF rec(this->padNode->pos()+offset,this->padNode->size());
46 46 for(int i=0;i<this->padNode->layers().count();i++)
47 47 {
48 48 QGraphicsRectItem* rect = new QGraphicsRectItem();
49 49 rect->setTransformOriginPoint(rec.center());
50 50 QPen pen = rect->pen();
51 51 pen.setWidthF(0.01);
52 52 rect->setPen(pen);
53 53 QBrush brush = rect->brush();
54 54 brush.setStyle(Qt::SolidPattern);
55 55 brush.setColor(context->layerColor(this->padNode->layers().at(i)));
56 56 rect->setBrush(brush);
57 57 rect->setRect(rec);
58 58 rect->setZValue(-context->layer(padNode->layers().at(i)));
59 59 rect->setRotation(padNode->angle());
60 60 this->addToGroup(rect);
61 61 }
62 62 QGraphicsTextItem* text=new QGraphicsTextItem(QString::number(padNode->padNumber()));
63 63 text->setPos(rec.center());
64 64 text->setScale(0.01);
65 65 text->setZValue(1);
66 66 this->addToGroup(text);
67 67
68 68 }
69 69 if(this->padNode->shape()==QIlib::QIcadPcbPad::circle)
70 70 {
71 71 for(int i=0;i<this->padNode->layers().count();i++)
72 72 {
73 73 QGraphicsEllipseItem* ellipse = new QGraphicsEllipseItem();
74 74 QPen pen = ellipse->pen();
75 75 pen.setWidthF(0.01);
76 76 ellipse->setPen(pen);
77 77 QBrush brush = ellipse->brush();
78 78 brush.setStyle(Qt::SolidPattern);
79 79 brush.setColor(context->layerColor(this->padNode->layers().at(i)));
80 80 ellipse->setBrush(brush);
81 81 QRectF rec(this->padNode->pos()+offset,this->padNode->size());
82 82 ellipse->setRect(rec);
83 83 ellipse->setZValue(-context->layer(padNode->layers().at(i)));
84 84 this->addToGroup(ellipse);
85 85 }
86 86 }
87 87 setOpacity(0.6);
88 88 }
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@@ -1,48 +1,48
1 1 /*------------------------------------------------------------------------------
2 2 -- This file is a part of the Kicad Tools Software
3 3 -- Copyright (C) 2015, Plasma Physics Laboratory - CNRS
4 4 --
5 5 -- This program is free software; you can redistribute it and/or modify
6 6 -- it under the terms of the GNU General Public License as published by
7 7 -- the Free Software Foundation; either version 2 of the License, or
8 8 -- (at your option) any later version.
9 9 --
10 10 -- This program is distributed in the hope that it will be useful,
11 11 -- but WITHOUT ANY WARRANTY; without even the implied warranty of
12 12 -- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 13 -- GNU General Public License for more details.
14 14 --
15 15 -- You should have received a copy of the GNU General Public License
16 16 -- along with this program; if not, write to the Free Software
17 17 -- Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
18 18 -------------------------------------------------------------------------------*/
19 19 /*-- Author : Alexis Jeandet
20 20 -- Mail : alexis.jeandet@member.fsf.org
21 21 ----------------------------------------------------------------------------*/
22 #ifndef PCBRECTPAD_H
23 #define PCBRECTPAD_H
22 #ifndef PCBPAD_H
23 #define PCBPAD_H
24 24
25 25 #include <QObject>
26 26 #include <QWidget>
27 27 #include <QGraphicsRectItem>
28 28 #include <QGraphicsItemGroup>
29 29 #include <pcbcontext.h>
30 30 #include <qicadpcb.h>
31 31
32 class PCBRectPad : public QGraphicsItemGroup
32 class PCBPad : public QGraphicsItemGroup
33 33 {
34 34 public:
35 PCBRectPad(QIlib::QIcadPcbPad* padNode,PCBContext* context);
36 PCBRectPad(QIlib::QIcadPcbPad* padNode,QPointF offset,PCBContext* context);
35 PCBPad(QIlib::QIcadPcbPad* padNode,PCBContext* context);
36 PCBPad(QIlib::QIcadPcbPad* padNode,QPointF offset,PCBContext* context);
37 37
38 38 private:
39 39 void init(QPointF offset);
40 40 QIlib::QIcadPcbPad* padNode;
41 41 QString name;
42 42 QPointF pos;
43 43 QRectF size;
44 44 QList<int> layers;
45 45 PCBContext* context;
46 46 };
47 47
48 #endif // PCBRECTPAD_H
48 #endif // PCBPAD_H
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@@ -1,66 +1,66
1 1 /*------------------------------------------------------------------------------
2 2 -- This file is a part of the Kicad Tools Software
3 3 -- Copyright (C) 2015, Plasma Physics Laboratory - CNRS
4 4 --
5 5 -- This program is free software; you can redistribute it and/or modify
6 6 -- it under the terms of the GNU General Public License as published by
7 7 -- the Free Software Foundation; either version 2 of the License, or
8 8 -- (at your option) any later version.
9 9 --
10 10 -- This program is distributed in the hope that it will be useful,
11 11 -- but WITHOUT ANY WARRANTY; without even the implied warranty of
12 12 -- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 13 -- GNU General Public License for more details.
14 14 --
15 15 -- You should have received a copy of the GNU General Public License
16 16 -- along with this program; if not, write to the Free Software
17 17 -- Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
18 18 -------------------------------------------------------------------------------*/
19 19 /*-- Author : Alexis Jeandet
20 20 -- Mail : alexis.jeandet@member.fsf.org
21 21 ----------------------------------------------------------------------------*/
22 22 #include "pcbvia.h"
23 23 #include <QPen>
24 24
25 25
26 26 PCBVia::PCBVia(QIlib::QIcadPcbVia *viaNode, PCBContext *context)
27 27 :QGraphicsItemGroup(),viaNode(viaNode),context(context)
28 28 {
29 29 this->init(QPointF(0.0,0.0));
30 30 }
31 31
32 32 PCBVia::PCBVia(QIlib::QIcadPcbVia *viaNode, QPointF offset, PCBContext *context)
33 33 :QGraphicsItemGroup(),viaNode(viaNode),context(context)
34 34 {
35 35 this->init(offset);
36 36 }
37 37
38 38 void PCBVia::init(QPointF offset)
39 39 {
40 this->setCacheMode(QGraphicsItem::DeviceCoordinateCache);
41 this->setFlags(ItemIsMovable|ItemIsSelectable|ItemIsFocusable);
40 42 this->path.addEllipse(this->viaNode->pos(),this->viaNode->size().width()/2,this->viaNode->size().height()/2);
41 43 double thickness = (this->viaNode->size().width()-this->viaNode->drill())/2;
42 44 this->path.addEllipse(this->viaNode->pos(),(this->viaNode->size().width()/2)-thickness,(this->viaNode->size().height()/2)-thickness);
43 this->setCacheMode(QGraphicsItem::DeviceCoordinateCache);
44 this->setFlags(ItemIsMovable|ItemIsSelectable|ItemIsFocusable);
45 45 offset-=QPointF(this->viaNode->size().width()/2,this->viaNode->size().height()/2);
46 46
47 47 for(int i=0;i<this->viaNode->layers().count();i++)
48 48 {
49 49 QGraphicsPathItem* pathitem = new QGraphicsPathItem();
50 50 QPen pen = pathitem->pen();
51 51 pen.setWidthF(0.01);
52 52
53 53 pathitem->setPen(pen);
54 54 QBrush brush = pathitem->brush();
55 55 brush.setStyle(Qt::SolidPattern);
56 56 brush.setColor(context->layerColor(this->viaNode->layers().at(i)));
57 57 pathitem->setBrush(brush);
58 58 // QRectF rec(this->viaNode->pos()+offset,QSizeF(this->viaNode->size().width()-thickness,this->viaNode->size().width()-thickness));
59 59 // pathitem->setRect(rec);
60 60 pathitem->setZValue(-context->layer(viaNode->layers().at(i)));
61 61 pathitem->setPath(path);
62 62 this->addToGroup(pathitem);
63 63 }
64 64
65 65 setOpacity(0.6);
66 66 }
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