kicad/pcbnew/muonde.cpp

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/*
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2012 Jean-Pierre Charras, jean-pierre.charras@ujf-grenoble.fr
* Copyright (C) 2012 SoftPLC Corporation, Dick Hollenbeck <dick@softplc.com>
* Copyright (C) 2012 Wayne Stambaugh <stambaughw@verizon.net>
* Copyright (C) 1992-2012 KiCad Developers, see AUTHORS.txt for contributors.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, you may find one here:
* http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
* or you may search the http://www.gnu.org website for the version 2 license,
* or you may write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
*/
/**
* @file muonde.cpp
* @brief Microwave pcb layout code.
*/
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#include <fctsys.h>
#include <class_drawpanel.h>
#include <confirm.h>
#include <trigo.h>
#include <kicad_string.h>
#include <gestfich.h>
#include <wxPcbStruct.h>
#include <dialog_helpers.h>
#include <richio.h>
#include <filter_reader.h>
#include <gr_basic.h>
#include <pcbcommon.h>
#include <macros.h>
#include <base_units.h>
#include <class_board.h>
#include <class_module.h>
#include <class_edge_mod.h>
#include <protos.h>
#include <pcbnew.h>
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#define COEFF_COUNT 6
static std::vector< double > PolyEdges;
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static double ShapeScaleX, ShapeScaleY;
static wxSize ShapeSize;
static int PolyShapeType;
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static void Exit_Self( EDA_DRAW_PANEL* Panel, wxDC* DC );
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static void gen_arc( std::vector <wxPoint>& aBuffer,
wxPoint aStartPoint,
wxPoint aCenter,
int a_ArcAngle );
static void ShowBoundingBoxMicroWaveInductor( EDA_DRAW_PANEL* apanel,
wxDC* aDC,
const wxPoint& aPosition,
bool aErase );
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int BuildCornersList_S_Shape( std::vector <wxPoint>& aBuffer,
wxPoint aStartPoint, wxPoint aEndPoint,
int aLength, int aWidth );
class SELFPCB
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{
public:
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int forme; // Shape: coil, spiral, etc ..
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wxPoint m_Start;
wxPoint m_End;
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wxSize m_Size;
int lng; // Trace length.
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int m_Width; // Trace width.
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};
static SELFPCB Mself;
static int Self_On;
/* This function shows on screen the bounding box of the inductor that will be
* created at the end of the build inductor process
*/
static void ShowBoundingBoxMicroWaveInductor( EDA_DRAW_PANEL* aPanel, wxDC* aDC,
const wxPoint& aPosition, bool aErase )
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{
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/* Calculate the orientation and size of the box containing the inductor:
* the box is a rectangle with height = lenght/2
* the shape is defined by a rectangle, nor necessary horizontal or vertical
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*/
GRSetDrawMode( aDC, GR_XOR );
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wxPoint poly[5];
wxPoint pt = Mself.m_End - Mself.m_Start;
double angle = -ArcTangente( pt.y, pt.x );
int len = KiROUND( EuclideanNorm( pt ) );
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// calculate corners
pt.x = 0; pt.y = len / 4;
RotatePoint( &pt, angle );
poly[0] = Mself.m_Start + pt;
poly[1] = Mself.m_End + pt;
pt.x = 0; pt.y = -len / 4;
RotatePoint( &pt, angle );
poly[2] = Mself.m_End + pt;
poly[3] = Mself.m_Start + pt;
poly[4] = poly[0];
if( aErase )
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{
GRPoly( aPanel->GetClipBox(), aDC, 5, poly, false, 0, YELLOW, YELLOW );
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}
Mself.m_End = aPanel->GetParent()->GetCrossHairPosition();
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pt = Mself.m_End - Mself.m_Start;
angle = -ArcTangente( pt.y, pt.x );
len = KiROUND( EuclideanNorm( pt ) );
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// calculate new corners
pt.x = 0; pt.y = len / 4;
RotatePoint( &pt, angle );
poly[0] = Mself.m_Start + pt;
poly[1] = Mself.m_End + pt;
pt.x = 0; pt.y = -len / 4;
RotatePoint( &pt, angle );
poly[2] = Mself.m_End + pt;
poly[3] = Mself.m_Start + pt;
poly[4] = poly[0];
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GRPoly( aPanel->GetClipBox(), aDC, 5, poly, false, 0, YELLOW, YELLOW );
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}
void Exit_Self( EDA_DRAW_PANEL* Panel, wxDC* DC )
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{
if( Self_On )
{
Self_On = 0;
Panel->CallMouseCapture( DC, wxDefaultPosition, 0 );
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}
}
void PCB_EDIT_FRAME::Begin_Self( wxDC* DC )
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{
if( Self_On )
{
Genere_Self( DC );
return;
}
Mself.m_Start = GetCrossHairPosition();
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Mself.m_End = Mself.m_Start;
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Self_On = 1;
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// Update the initial coordinates.
GetScreen()->m_O_Curseur = GetCrossHairPosition();
UpdateStatusBar();
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m_canvas->SetMouseCapture( ShowBoundingBoxMicroWaveInductor, Exit_Self );
m_canvas->CallMouseCapture( DC, wxDefaultPosition, false );
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}
MODULE* PCB_EDIT_FRAME::Genere_Self( wxDC* DC )
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{
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D_PAD* pad;
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int ll;
wxString msg;
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m_canvas->CallMouseCapture( DC, wxDefaultPosition, false );
m_canvas->SetMouseCapture( NULL, NULL );
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if( Self_On == 0 )
{
DisplayError( this, wxT( "Starting point not init.." ) );
return NULL;
}
Self_On = 0;
Mself.m_End = GetCrossHairPosition();
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wxPoint pt = Mself.m_End - Mself.m_Start;
int min_len = KiROUND( EuclideanNorm( pt ) );
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Mself.lng = min_len;
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// Enter the desired length.
msg = ReturnStringFromValue( g_UserUnit, Mself.lng );
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wxTextEntryDialog dlg( this, _( "Length:" ), _( "Length" ), msg );
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if( dlg.ShowModal() != wxID_OK )
return NULL; // canceled by user
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msg = dlg.GetValue();
Mself.lng = ReturnValueFromString( g_UserUnit, msg );
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// Control values (ii = minimum length)
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if( Mself.lng < min_len )
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{
DisplayError( this, _( "Requested length < minimum length" ) );
return NULL;
}
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// Calculate the elements.
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Mself.m_Width = GetBoard()->GetCurrentTrackWidth();
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std::vector <wxPoint> buffer;
ll = BuildCornersList_S_Shape( buffer, Mself.m_Start, Mself.m_End, Mself.lng, Mself.m_Width );
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if( !ll )
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{
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DisplayError( this, _( "Requested length too large" ) );
return NULL;
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}
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// Generate module.
MODULE* module;
module = Create_1_Module( wxEmptyString );
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if( module == NULL )
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return NULL;
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// here the module is already in the BOARD, Create_1_Module() does that.
module->SetFPID( FPID( std::string( "MuSelf" ) ) );
module->SetAttributes( MOD_VIRTUAL | MOD_CMS );
module->ClearFlags();
module->SetPosition( Mself.m_End );
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// Generate segments
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for( unsigned jj = 1; jj < buffer.size(); jj++ )
{
EDGE_MODULE* PtSegm;
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PtSegm = new EDGE_MODULE( module );
PtSegm->SetStart( buffer[jj - 1] );
PtSegm->SetEnd( buffer[jj] );
PtSegm->SetWidth( Mself.m_Width );
PtSegm->SetLayer( module->GetLayer() );
PtSegm->SetShape( S_SEGMENT );
PtSegm->SetStart0( PtSegm->GetStart() - module->GetPosition() );
PtSegm->SetEnd0( PtSegm->GetEnd() - module->GetPosition() );
module->GraphicalItems().PushBack( PtSegm );
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}
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// Place a pad on each end of coil.
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pad = new D_PAD( module );
module->Pads().PushFront( pad );
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pad->SetPadName( wxT( "1" ) );
pad->SetPosition( Mself.m_End );
pad->SetPos0( pad->GetPosition() - module->GetPosition() );
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pad->SetSize( wxSize( Mself.m_Width, Mself.m_Width ) );
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pad->SetLayerMask( GetLayerMask( module->GetLayer() ) );
pad->SetAttribute( PAD_SMD );
pad->SetShape( PAD_CIRCLE );
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D_PAD* newpad = new D_PAD( *pad );
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module->Pads().Insert( newpad, pad->Next() );
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pad = newpad;
pad->SetPadName( wxT( "2" ) );
pad->SetPosition( Mself.m_Start );
pad->SetPos0( pad->GetPosition() - module->GetPosition() );
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// Modify text positions.
SetMsgPanel( module );
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wxPoint refPos( ( Mself.m_Start.x + Mself.m_End.x ) / 2,
( Mself.m_Start.y + Mself.m_End.y ) / 2 );
wxPoint valPos = refPos;
refPos.y -= module->Reference().GetSize().y;
module->Reference().SetTextPosition( refPos );
valPos.y += module->Value().GetSize().y;
module->Value().SetTextPosition( valPos );
module->Reference().SetPos0( module->Reference().GetTextPosition() - module->GetPosition() );
module->Value().SetPos0( module->Value().GetTextPosition() - module->GetPosition() );
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module->CalculateBoundingBox();
module->Draw( m_canvas, DC, GR_OR );
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return module;
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}
/**
* Function gen_arc
* generates an arc using arc approximation by lines:
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* Center aCenter
* Angle "angle" (in 0.1 deg)
* @param aBuffer = a buffer to store points.
* @param aStartPoint = starting point of arc.
* @param aCenter = arc centre.
* @param a_ArcAngle = arc length in 0.1 degrees.
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*/
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static void gen_arc( std::vector <wxPoint>& aBuffer,
wxPoint aStartPoint,
wxPoint aCenter,
int a_ArcAngle )
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{
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#define SEGM_COUNT_PER_360DEG 16
wxPoint first_point = aStartPoint - aCenter;
int seg_count = ( ( abs( a_ArcAngle ) ) * SEGM_COUNT_PER_360DEG ) / 3600;
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if( seg_count == 0 )
seg_count = 1;
double increment_angle = (double) a_ArcAngle * M_PI / 1800 / seg_count;
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// Creates nb_seg point to approximate arc by segments:
for( int ii = 1; ii <= seg_count; ii++ )
{
double rot_angle = increment_angle * ii;
double fcos = cos( rot_angle );
double fsin = sin( rot_angle );
wxPoint currpt;
// Rotate current point:
// Dick Hollenbeck's KiROUND R&D // This provides better project control over rounding to int from double // than wxRound() did. This scheme provides better logging in Debug builds // and it provides for compile time calculation of constants. #include <stdio.h> #include <assert.h> #include <limits.h> //-----<KiROUND KIT>------------------------------------------------------------ /** * KiROUND * rounds a floating point number to an int using * "round halfway cases away from zero". * In Debug build an assert fires if will not fit into an int. */ #if defined( DEBUG ) // DEBUG: a macro to capture line and file, then calls this inline static inline int KiRound( double v, int line, const char* filename ) { v = v < 0 ? v - 0.5 : v + 0.5; if( v > INT_MAX + 0.5 ) { printf( "%s: in file %s on line %d, val: %.16g too ' > 0 ' for int\n", __FUNCTION__, filename, line, v ); } else if( v < INT_MIN - 0.5 ) { printf( "%s: in file %s on line %d, val: %.16g too ' < 0 ' for int\n", __FUNCTION__, filename, line, v ); } return int( v ); } #define KiROUND( v ) KiRound( v, __LINE__, __FILE__ ) #else // RELEASE: a macro so compile can pre-compute constants. #define KiROUND( v ) int( (v) < 0 ? (v) - 0.5 : (v) + 0.5 ) #endif //-----</KiROUND KIT>----------------------------------------------------------- // Only a macro is compile time calculated, an inline function causes a static constructor // in a situation like this. // Therefore the Release build is best done with a MACRO not an inline function. int Computed = KiROUND( 14.3 * 8 ); int main( int argc, char** argv ) { for( double d = double(INT_MAX)-1; d < double(INT_MAX)+8; d += 2.0 ) { int i = KiROUND( d ); printf( "t: %d %.16g\n", i, d ); } return 0; }
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currpt.x = KiROUND( ( first_point.x * fcos + first_point.y * fsin ) );
currpt.y = KiROUND( ( first_point.y * fcos - first_point.x * fsin ) );
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wxPoint corner = aCenter + currpt;
aBuffer.push_back( corner );
}
}
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/**
* Function BuildCornersList_S_Shape
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* Create a path like a S-shaped coil
* @param aBuffer = a buffer where to store points (ends of segments)
* @param aStartPoint = starting point of the path
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* @param aEndPoint = ending point of the path
* @param aLength = full lenght of the path
* @param aWidth = segment width
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*/
int BuildCornersList_S_Shape( std::vector <wxPoint>& aBuffer,
wxPoint aStartPoint, wxPoint aEndPoint,
int aLength, int aWidth )
{
/* We must determine:
* segm_count = number of segments perpendicular to the direction
* segm_len = length of a strand
* radius = radius of rounded parts of the coil
* stubs_len = length of the 2 stubs( segments parallel to the direction)
* connecting the start point to the start point of the S shape
* and the ending point to the end point of the S shape
* The equations are (assuming the area size of the entire shape is Size:
* Size.x = 2 * radius + segm_len
* Size.y = (segm_count + 2 ) * 2 * radius + 2 * stubs_len
* Mself.lng = 2 * delta // connections to the coil
* + (segm_count-2) * segm_len // length of the strands except 1st and last
* + (segm_count) * (PI * radius) // length of rounded
* segm_len + / 2 - radius * 2) // length of 1st and last bit
*
* The constraints are:
* segm_count >= 2
* radius < m_Size.x
* Size.y = (radius * 4) + (2 * stubs_len)
* segm_len > radius * 2
*
* The calculation is conducted in the following way:
* first:
* segm_count = 2
* radius = 4 * Size.x (arbitrarily fixed value)
* Then:
* Increasing the number of segments to the desired length
* (radius decreases if necessary)
*/
wxSize size;
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// This scale factor adjusts the arc length to handle
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// the arc to segment approximation.
// because we use SEGM_COUNT_PER_360DEG segment to approximate a circle,
// the trace len must be corrected when calculated using arcs
// this factor adjust calculations and must be changed if SEGM_COUNT_PER_360DEG is modified
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// because trace using segment is shorter the corresponding arc
// ADJUST_SIZE is the ratio between tline len and the arc len for an arc
// of 360/ADJUST_SIZE angle
#define ADJUST_SIZE 0.988
wxPoint pt = aEndPoint - aStartPoint;
double angle = -ArcTangente( pt.y, pt.x );
int min_len = KiROUND( EuclideanNorm( pt ) );
int segm_len = 0; // length of segments
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int full_len; // full len of shape (sum of lenght of all segments + arcs)
/* Note: calculations are made for a vertical coil (more easy calculations)
* and after points are rotated to their actual position
* So the main direction is the Y axis.
* the 2 stubs are on the Y axis
* the others segments are parallel to the X axis.
*/
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// Calculate the size of area (for a vertical shape)
size.x = min_len / 2;
size.y = min_len;
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// Choose a reasonable starting value for the radius of the arcs.
int radius = std::min( aWidth * 5, size.x / 4 );
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int segm_count; // number of full len segments
// the half size segments (first and last segment) are not counted here
int stubs_len = 0; // lenght of first or last segment (half size of others segments)
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for( segm_count = 0; ; segm_count++ )
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{
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stubs_len = ( size.y - ( radius * 2 * (segm_count + 2 ) ) ) / 2;
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if( stubs_len < size.y / 10 ) // Reduce radius.
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{
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stubs_len = size.y / 10;
radius = ( size.y - (2 * stubs_len) ) / ( 2 * (segm_count + 2) );
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if( radius < aWidth ) // Radius too small.
{
// Unable to create line: Requested length value is too large for room
return 0;
}
}
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segm_len = size.x - ( radius * 2 );
full_len = 2 * stubs_len; // Length of coil connections.
full_len += segm_len * segm_count; // Length of full length segments.
// Dick Hollenbeck's KiROUND R&D // This provides better project control over rounding to int from double // than wxRound() did. This scheme provides better logging in Debug builds // and it provides for compile time calculation of constants. #include <stdio.h> #include <assert.h> #include <limits.h> //-----<KiROUND KIT>------------------------------------------------------------ /** * KiROUND * rounds a floating point number to an int using * "round halfway cases away from zero". * In Debug build an assert fires if will not fit into an int. */ #if defined( DEBUG ) // DEBUG: a macro to capture line and file, then calls this inline static inline int KiRound( double v, int line, const char* filename ) { v = v < 0 ? v - 0.5 : v + 0.5; if( v > INT_MAX + 0.5 ) { printf( "%s: in file %s on line %d, val: %.16g too ' > 0 ' for int\n", __FUNCTION__, filename, line, v ); } else if( v < INT_MIN - 0.5 ) { printf( "%s: in file %s on line %d, val: %.16g too ' < 0 ' for int\n", __FUNCTION__, filename, line, v ); } return int( v ); } #define KiROUND( v ) KiRound( v, __LINE__, __FILE__ ) #else // RELEASE: a macro so compile can pre-compute constants. #define KiROUND( v ) int( (v) < 0 ? (v) - 0.5 : (v) + 0.5 ) #endif //-----</KiROUND KIT>----------------------------------------------------------- // Only a macro is compile time calculated, an inline function causes a static constructor // in a situation like this. // Therefore the Release build is best done with a MACRO not an inline function. int Computed = KiROUND( 14.3 * 8 ); int main( int argc, char** argv ) { for( double d = double(INT_MAX)-1; d < double(INT_MAX)+8; d += 2.0 ) { int i = KiROUND( d ); printf( "t: %d %.16g\n", i, d ); } return 0; }
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full_len += KiROUND( ( segm_count + 2 ) * M_PI * ADJUST_SIZE * radius ); // Ard arcs len
full_len += segm_len - (2 * radius); // Length of first and last segments
// (half size segments len = segm_len/2 - radius).
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if( full_len >= aLength )
break;
}
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// Adjust len by adjusting segm_len:
int delta_size = full_len - aLength;
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// reduce len of the segm_count segments + 2 half size segments (= 1 full size segment)
segm_len -= delta_size / (segm_count + 1);
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// Generate first line (the first stub) and first arc (90 deg arc)
pt = aStartPoint;
aBuffer.push_back( pt );
pt.y += stubs_len;
aBuffer.push_back( pt );
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wxPoint centre = pt;
centre.x -= radius;
gen_arc( aBuffer, pt, centre, -900 );
pt = aBuffer.back();
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int half_size_seg_len = segm_len / 2 - radius;
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if( half_size_seg_len )
{
pt.x -= half_size_seg_len;
aBuffer.push_back( pt );
}
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// Create shape.
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int ii;
int sign = 1;
segm_count += 1; // increase segm_count to create the last half_size segment
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for( ii = 0; ii < segm_count; ii++ )
{
int arc_angle;
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if( ii & 1 ) // odd order arcs are greater than 0
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sign = -1;
else
sign = 1;
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arc_angle = 1800 * sign;
centre = pt;
centre.y += radius;
gen_arc( aBuffer, pt, centre, arc_angle );
pt = aBuffer.back();
pt.x += segm_len * sign;
aBuffer.push_back( pt );
}
// The last point is false:
// it is the end of a full size segment, but must be
// the end of the second half_size segment. Change it.
sign *= -1;
aBuffer.back().x = aStartPoint.x + radius * sign;
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// create last arc
pt = aBuffer.back();
centre = pt;
centre.y += radius;
gen_arc( aBuffer, pt, centre, 900 * sign ); pt = aBuffer.back();
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// Rotate point
angle += 900;
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for( unsigned jj = 0; jj < aBuffer.size(); jj++ )
{
RotatePoint( &aBuffer[jj].x, &aBuffer[jj].y, aStartPoint.x, aStartPoint.y, angle );
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}
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// push last point (end point)
aBuffer.push_back( aEndPoint );
return 1;
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}
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MODULE* PCB_EDIT_FRAME::Create_MuWaveBasicShape( const wxString& name, int pad_count )
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{
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MODULE* module;
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int pad_num = 1;
wxString Line;
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module = Create_1_Module( name );
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if( module == NULL )
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return NULL;
#define DEFAULT_SIZE 30
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module->SetTimeStamp( GetNewTimeStamp() );
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module->Value().SetSize( wxSize( DEFAULT_SIZE, DEFAULT_SIZE ) );
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module->Value().SetPos0( wxPoint( 0, -DEFAULT_SIZE ) );
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module->Value().Offset( wxPoint( 0, module->Value().GetPos0().y ) );
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module->Value().SetThickness( DEFAULT_SIZE / 4 );
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module->Reference().SetSize( wxSize( DEFAULT_SIZE, DEFAULT_SIZE ) );
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module->Reference().SetPos0( wxPoint( 0, DEFAULT_SIZE ) );
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module->Reference().Offset( wxPoint( 0, module->Reference().GetPos0().y ) );
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module->Reference().SetThickness( DEFAULT_SIZE / 4 );
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// Create 2 pads used in gaps and stubs. The gap is between these 2 pads
// the stub is the pad 2
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while( pad_count-- )
{
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D_PAD* pad = new D_PAD( module );
module->Pads().PushFront( pad );
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int tw = GetBoard()->GetCurrentTrackWidth();
pad->SetSize( wxSize( tw, tw ) );
pad->SetPosition( module->GetPosition() );
pad->SetShape( PAD_RECT );
pad->SetAttribute( PAD_SMD );
pad->SetLayerMask( LAYER_FRONT );
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Line.Printf( wxT( "%d" ), pad_num );
pad->SetPadName( Line );
pad_num++;
}
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return module;
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}
MODULE* PCB_EDIT_FRAME::Create_MuWaveComponent( int shape_type )
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{
int oX;
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D_PAD* pad;
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MODULE* module;
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wxString msg, cmp_name;
int pad_count = 2;
int angle = 0;
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// Enter the size of the gap or stub
int gap_size = GetBoard()->GetCurrentTrackWidth();
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switch( shape_type )
{
case 0:
msg = _( "Gap" );
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cmp_name = wxT( "GAP" );
break;
case 1:
msg = _( "Stub" );
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cmp_name = wxT( "STUB" );
pad_count = 2;
break;
case 2:
msg = _( "Arc Stub" );
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cmp_name = wxT( "ASTUB" );
pad_count = 1;
break;
default:
msg = wxT( "???" );
break;
}
wxString value = ReturnStringFromValue( g_UserUnit, gap_size );
wxTextEntryDialog dlg( this, msg, _( "Create microwave module" ), value );
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if( dlg.ShowModal() != wxID_OK )
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{
m_canvas->MoveCursorToCrossHair();
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return NULL; // cancelled by user
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}
value = dlg.GetValue();
gap_size = ReturnValueFromString( g_UserUnit, value );
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bool abort = false;
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if( shape_type == 2 )
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{
double fcoeff = 10.0, fval;
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msg.Printf( wxT( "%3.1f" ), angle / fcoeff );
wxTextEntryDialog angledlg( this, _( "Angle (0.1deg):" ),
_( "Create microwave module" ), msg );
if( angledlg.ShowModal() != wxID_OK )
{
m_canvas->MoveCursorToCrossHair();
return NULL; // cancelled by user
}
msg = angledlg.GetValue();
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if( !msg.ToDouble( &fval ) )
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{
DisplayError( this, _( "Incorrect number, abort" ) );
abort = true;
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}
angle = std::abs( KiROUND( fval * fcoeff ) );
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if( angle > 1800 )
angle = 1800;
}
if( abort )
{
m_canvas->MoveCursorToCrossHair();
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return NULL;
}
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module = Create_MuWaveBasicShape( cmp_name, pad_count );
pad = module->Pads();
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switch( shape_type )
{
case 0: //Gap :
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oX = -( gap_size + pad->GetSize().x ) / 2;
pad->SetX0( oX );
pad->SetX( pad->GetPos0().x + pad->GetPosition().x );
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pad = pad->Next();
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pad->SetX0( oX + gap_size + pad->GetSize().x );
pad->SetX( pad->GetPos0().x + pad->GetPosition().x );
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break;
case 1: //Stub :
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pad->SetPadName( wxT( "1" ) );
pad = pad->Next();
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pad->SetY0( -( gap_size + pad->GetSize().y ) / 2 );
pad->SetSize( wxSize( pad->GetSize().x, gap_size ) );
pad->SetY( pad->GetPos0().y + pad->GetPosition().y );
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break;
case 2: // Arc Stub created by a polygonal approach:
{
EDGE_MODULE* edge = new EDGE_MODULE( module );
module->GraphicalItems().PushFront( edge );
edge->SetShape( S_POLYGON );
edge->SetLayer( LAYER_N_FRONT );
int numPoints = angle / 50 + 3; // Note: angles are in 0.1 degrees
std::vector<wxPoint> polyPoints = edge->GetPolyPoints();
polyPoints.reserve( numPoints );
edge->m_Start0.y = -pad->GetSize().y / 2;
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polyPoints.push_back( wxPoint( 0, 0 ) );
int theta = -angle / 2;
for( int ii = 1; ii<numPoints - 1; ii++ )
{
wxPoint pt( 0, -gap_size );
RotatePoint( &pt.x, &pt.y, theta );
polyPoints.push_back( pt );
theta += 50;
if( theta > angle / 2 )
theta = angle / 2;
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}
// Close the polygon:
polyPoints.push_back( polyPoints[0] );
}
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break;
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default:
break;
}
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module->CalculateBoundingBox();
GetBoard()->m_Status_Pcb = 0;
OnModify();
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return module;
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}
/**************** Polygon Shapes ***********************/
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enum id_mw_cmd {
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ID_READ_SHAPE_FILE = 1000
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};
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/* Setting polynomial form parameters
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*/
class WinEDA_SetParamShapeFrame : public wxDialog
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{
private:
PCB_EDIT_FRAME* m_Parent;
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wxRadioBox* m_ShapeOptionCtrl;
EDA_SIZE_CTRL* m_SizeCtrl;
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public:
WinEDA_SetParamShapeFrame( PCB_EDIT_FRAME* parent, const wxPoint& pos );
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~WinEDA_SetParamShapeFrame() { };
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private:
void OnOkClick( wxCommandEvent& event );
void OnCancelClick( wxCommandEvent& event );
/**
* Function ReadDataShapeDescr
* read a description shape file
* File format is
* Unit=MM
* XScale=271.501
* YScale=1.00133
*
* $COORD
* 0 0.6112600148417837
* 0.001851851851851852 0.6104800531118608
* ....
* $ENDCOORD
*
* Each line is the X Y coord (normalized units from 0 to 1)
*/
void ReadDataShapeDescr( wxCommandEvent& event );
void AcceptOptions( wxCommandEvent& event );
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DECLARE_EVENT_TABLE()
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};
BEGIN_EVENT_TABLE( WinEDA_SetParamShapeFrame, wxDialog )
EVT_BUTTON( wxID_OK, WinEDA_SetParamShapeFrame::OnOkClick )
EVT_BUTTON( wxID_CANCEL, WinEDA_SetParamShapeFrame::OnCancelClick )
EVT_BUTTON( ID_READ_SHAPE_FILE, WinEDA_SetParamShapeFrame::ReadDataShapeDescr )
END_EVENT_TABLE()
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WinEDA_SetParamShapeFrame::WinEDA_SetParamShapeFrame( PCB_EDIT_FRAME* parent,
const wxPoint& framepos ) :
wxDialog( parent, -1, _( "Complex shape" ), framepos, wxSize( 350, 280 ), DIALOG_STYLE )
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{
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m_Parent = parent;
PolyEdges.clear();
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wxBoxSizer* MainBoxSizer = new wxBoxSizer( wxHORIZONTAL );
SetSizer( MainBoxSizer );
wxBoxSizer* LeftBoxSizer = new wxBoxSizer( wxVERTICAL );
wxBoxSizer* RightBoxSizer = new wxBoxSizer( wxVERTICAL );
MainBoxSizer->Add( LeftBoxSizer, 0, wxGROW | wxALL, 5 );
MainBoxSizer->Add( RightBoxSizer, 0, wxALIGN_CENTER_VERTICAL | wxALL, 5 );
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wxButton* Button = new wxButton( this, wxID_OK, _( "OK" ) );
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RightBoxSizer->Add( Button, 0, wxGROW | wxALL, 5 );
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Button = new wxButton( this, wxID_CANCEL, _( "Cancel" ) );
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RightBoxSizer->Add( Button, 0, wxGROW | wxALL, 5 );
Button = new wxButton( this, ID_READ_SHAPE_FILE,
_( "Read Shape Description File..." ) );
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RightBoxSizer->Add( Button, 0, wxGROW | wxALL, 5 );
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wxString shapelist[3] =
{
_( "Normal" ), _( "Symmetrical" ),
_( "Mirrored" )
};
m_ShapeOptionCtrl = new wxRadioBox( this, -1, _( "Shape Option" ),
wxDefaultPosition, wxDefaultSize, 3,
shapelist, 1,
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wxRA_SPECIFY_COLS );
LeftBoxSizer->Add( m_ShapeOptionCtrl, 0, wxGROW | wxALL, 5 );
m_SizeCtrl = new EDA_SIZE_CTRL( this, _( "Size" ), ShapeSize, g_UserUnit, LeftBoxSizer );
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GetSizer()->Fit( this );
GetSizer()->SetSizeHints( this );
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}
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void WinEDA_SetParamShapeFrame::OnCancelClick( wxCommandEvent& event )
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{
PolyEdges.clear();
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EndModal( -1 );
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}
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void WinEDA_SetParamShapeFrame::OnOkClick( wxCommandEvent& event )
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{
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ShapeSize = m_SizeCtrl->GetValue();
PolyShapeType = m_ShapeOptionCtrl->GetSelection();
EndModal( 1 );
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}
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void WinEDA_SetParamShapeFrame::ReadDataShapeDescr( wxCommandEvent& event )
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{
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wxString FullFileName;
wxString ext, mask;
FILE* File;
char* Line;
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double unitconv = 10000;
char* param1, * param2;
ext = wxT( ".txt" );
mask = wxT( "*" ) + ext;
FullFileName = EDA_FileSelector( _( "Read descr shape file" ),
wxEmptyString,
FullFileName,
ext,
mask,
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this,
wxFD_OPEN,
true );
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if( FullFileName.IsEmpty() )
return;
File = wxFopen( FullFileName, wxT( "rt" ) );
if( File == NULL )
{
DisplayError( this, _( "File not found" ) );
return;
}
FILE_LINE_READER fileReader( File, FullFileName );
FILTER_READER reader( fileReader );
2007-08-08 03:50:44 +00:00
2012-02-19 04:02:19 +00:00
LOCALE_IO toggle;
while( reader.ReadLine() )
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{
Line = reader.Line();
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param1 = strtok( Line, " =\n\r" );
param2 = strtok( NULL, " \t\n\r" );
if( strnicmp( param1, "Unit", 4 ) == 0 )
{
if( strnicmp( param2, "inch", 4 ) == 0 )
unitconv = 10000;
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if( strnicmp( param2, "mm", 2 ) == 0 )
unitconv = 10000 / 25.4;
}
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if( strnicmp( param1, "$ENDCOORD", 8 ) == 0 )
break;
2007-08-08 03:50:44 +00:00
if( strnicmp( param1, "$COORD", 6 ) == 0 )
{
while( reader.ReadLine() )
2007-08-08 03:50:44 +00:00
{
Line = reader.Line();
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param1 = strtok( Line, " \t\n\r" );
param2 = strtok( NULL, " \t\n\r" );
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if( strnicmp( param1, "$ENDCOORD", 8 ) == 0 )
break;
PolyEdges.push_back( atof( param1 ) );
PolyEdges.push_back( atof( param2 ) );
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}
}
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if( strnicmp( Line, "XScale", 6 ) == 0 )
{
ShapeScaleX = atof( param2 );
}
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if( strnicmp( Line, "YScale", 6 ) == 0 )
{
ShapeScaleY = atof( param2 );
}
}
ShapeScaleX *= unitconv;
ShapeScaleY *= unitconv;
m_SizeCtrl->SetValue( (int) ShapeScaleX, (int) ShapeScaleY );
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}
MODULE* PCB_EDIT_FRAME::Create_MuWavePolygonShape()
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{
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D_PAD* pad1, * pad2;
2011-12-14 04:29:25 +00:00
MODULE* module;
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wxString cmp_name;
int pad_count = 2;
EDGE_MODULE* edge;
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WinEDA_SetParamShapeFrame* frame = new WinEDA_SetParamShapeFrame( this, wxPoint( -1, -1 ) );
int ok = frame->ShowModal();
frame->Destroy();
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m_canvas->MoveCursorToCrossHair();
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if( ok != 1 )
{
PolyEdges.clear();
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}
if( PolyShapeType == 2 ) // mirrored
ShapeScaleY = -ShapeScaleY;
// Dick Hollenbeck's KiROUND R&D // This provides better project control over rounding to int from double // than wxRound() did. This scheme provides better logging in Debug builds // and it provides for compile time calculation of constants. #include <stdio.h> #include <assert.h> #include <limits.h> //-----<KiROUND KIT>------------------------------------------------------------ /** * KiROUND * rounds a floating point number to an int using * "round halfway cases away from zero". * In Debug build an assert fires if will not fit into an int. */ #if defined( DEBUG ) // DEBUG: a macro to capture line and file, then calls this inline static inline int KiRound( double v, int line, const char* filename ) { v = v < 0 ? v - 0.5 : v + 0.5; if( v > INT_MAX + 0.5 ) { printf( "%s: in file %s on line %d, val: %.16g too ' > 0 ' for int\n", __FUNCTION__, filename, line, v ); } else if( v < INT_MIN - 0.5 ) { printf( "%s: in file %s on line %d, val: %.16g too ' < 0 ' for int\n", __FUNCTION__, filename, line, v ); } return int( v ); } #define KiROUND( v ) KiRound( v, __LINE__, __FILE__ ) #else // RELEASE: a macro so compile can pre-compute constants. #define KiROUND( v ) int( (v) < 0 ? (v) - 0.5 : (v) + 0.5 ) #endif //-----</KiROUND KIT>----------------------------------------------------------- // Only a macro is compile time calculated, an inline function causes a static constructor // in a situation like this. // Therefore the Release build is best done with a MACRO not an inline function. int Computed = KiROUND( 14.3 * 8 ); int main( int argc, char** argv ) { for( double d = double(INT_MAX)-1; d < double(INT_MAX)+8; d += 2.0 ) { int i = KiROUND( d ); printf( "t: %d %.16g\n", i, d ); } return 0; }
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ShapeSize.x = KiROUND( ShapeScaleX );
ShapeSize.y = KiROUND( ShapeScaleY );
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if( ( ShapeSize.x ) == 0 || ( ShapeSize.y == 0 ) )
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{
DisplayError( this, _( "Shape has a null size!" ) );
return NULL;
}
if( PolyEdges.size() == 0 )
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{
DisplayError( this, _( "Shape has no points!" ) );
return NULL;
}
cmp_name = wxT( "POLY" );
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module = Create_MuWaveBasicShape( cmp_name, pad_count );
pad1 = module->Pads();
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2012-02-19 04:02:19 +00:00
pad1->SetX0( -ShapeSize.x / 2 );
pad1->SetX( pad1->GetPos0().x + pad1->GetPosition().x );
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pad2 = (D_PAD*) pad1->Next();
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pad2->SetX0( pad1->GetPos0().x + ShapeSize.x );
pad2->SetX( pad2->GetPos0().x + pad2->GetPosition().x );
2007-08-08 03:50:44 +00:00
2011-12-14 04:29:25 +00:00
edge = new EDGE_MODULE( module );
module->GraphicalItems().PushFront( edge );
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edge->SetShape( S_POLYGON );
edge->SetLayer( LAYER_N_FRONT );
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std::vector<wxPoint> polyPoints = edge->GetPolyPoints();
polyPoints.reserve( 2 * PolyEdges.size() + 2 );
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// Init start point coord:
2012-02-19 04:02:19 +00:00
polyPoints.push_back( wxPoint( pad1->GetPos0().x, 0 ) );
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wxPoint first_coordinate, last_coordinate;
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for( unsigned ii = 0; ii < PolyEdges.size(); ii++ ) // Copy points
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{
// Dick Hollenbeck's KiROUND R&D // This provides better project control over rounding to int from double // than wxRound() did. This scheme provides better logging in Debug builds // and it provides for compile time calculation of constants. #include <stdio.h> #include <assert.h> #include <limits.h> //-----<KiROUND KIT>------------------------------------------------------------ /** * KiROUND * rounds a floating point number to an int using * "round halfway cases away from zero". * In Debug build an assert fires if will not fit into an int. */ #if defined( DEBUG ) // DEBUG: a macro to capture line and file, then calls this inline static inline int KiRound( double v, int line, const char* filename ) { v = v < 0 ? v - 0.5 : v + 0.5; if( v > INT_MAX + 0.5 ) { printf( "%s: in file %s on line %d, val: %.16g too ' > 0 ' for int\n", __FUNCTION__, filename, line, v ); } else if( v < INT_MIN - 0.5 ) { printf( "%s: in file %s on line %d, val: %.16g too ' < 0 ' for int\n", __FUNCTION__, filename, line, v ); } return int( v ); } #define KiROUND( v ) KiRound( v, __LINE__, __FILE__ ) #else // RELEASE: a macro so compile can pre-compute constants. #define KiROUND( v ) int( (v) < 0 ? (v) - 0.5 : (v) + 0.5 ) #endif //-----</KiROUND KIT>----------------------------------------------------------- // Only a macro is compile time calculated, an inline function causes a static constructor // in a situation like this. // Therefore the Release build is best done with a MACRO not an inline function. int Computed = KiROUND( 14.3 * 8 ); int main( int argc, char** argv ) { for( double d = double(INT_MAX)-1; d < double(INT_MAX)+8; d += 2.0 ) { int i = KiROUND( d ); printf( "t: %d %.16g\n", i, d ); } return 0; }
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last_coordinate.x = KiROUND( PolyEdges[ii] * ShapeScaleX ) + pad1->GetPos0().x;
last_coordinate.y = -KiROUND( PolyEdges[ii] * ShapeScaleY );
polyPoints.push_back( last_coordinate );
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}
first_coordinate.y = polyPoints[1].y;
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switch( PolyShapeType )
{
case 0: // Single
case 2: // Single mirrored
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// Init end point coord:
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pad2->SetX0( last_coordinate.x );
polyPoints.push_back( wxPoint( last_coordinate.x, 0 ) );
pad1->SetSize( wxSize( std::abs( first_coordinate.y ),
std::abs( first_coordinate.y ) ) );
pad2->SetSize( wxSize( std::abs( last_coordinate.y ),
std::abs( last_coordinate.y ) ) );
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pad1->SetY0( first_coordinate.y / 2 );
pad2->SetY0( last_coordinate.y / 2 );
pad1->SetY( pad1->GetPos0().y + module->GetPosition().y );
pad2->SetY( pad2->GetPos0().y + module->GetPosition().y );
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break;
case 1: // Symmetric
for( int ndx = polyPoints.size() - 1; ndx>=0; --ndx )
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{
wxPoint pt = polyPoints[ndx];
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pt.y = -pt.y; // mirror about X axis
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polyPoints.push_back( pt );
}
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pad1->SetSize( wxSize( 2 * std::abs( first_coordinate.y ),
2 * std::abs( first_coordinate.y ) ) );
pad2->SetSize( wxSize( 2 * std::abs( last_coordinate.y ),
2 * std::abs( last_coordinate.y ) ) );
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break;
}
PolyEdges.clear();
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module->CalculateBoundingBox();
GetBoard()->m_Status_Pcb = 0;
OnModify();
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return module;
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}
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void PCB_EDIT_FRAME::Edit_Gap( wxDC* DC, MODULE* aModule )
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{
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int gap_size, oX;
D_PAD* pad, * next_pad;
wxString msg;
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if( aModule == NULL )
return;
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// Test if module is a gap type (name begins with GAP, and has 2 pads).
msg = aModule->GetReference().Left( 3 );
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if( msg != wxT( "GAP" ) )
return;
pad = aModule->Pads();
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if( pad == NULL )
{
DisplayError( this, _( "No pad for this module" ) );
return;
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}
next_pad = (D_PAD*) pad->Next();
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if( next_pad == NULL )
{
DisplayError( this, _( "Only one pad for this module" ) );
return;
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}
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aModule->Draw( m_canvas, DC, GR_XOR );
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// Calculate the current dimension.
gap_size = next_pad->GetPos0().x - pad->GetPos0().x - pad->GetSize().x;
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// Entrer the desired length of the gap.
msg = ReturnStringFromValue( g_UserUnit, gap_size );
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wxTextEntryDialog dlg( this, _( "Gap:" ), _( "Create Microwave Gap" ), msg );
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if( dlg.ShowModal() != wxID_OK )
return; // cancelled by user
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msg = dlg.GetValue();
gap_size = ReturnValueFromString( g_UserUnit, msg );
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// Updating sizes of pads forming the gap.
int tw = GetBoard()->GetCurrentTrackWidth();
pad->SetSize( wxSize( tw, tw ) );
pad->SetY0( 0 );
oX = -( gap_size + pad->GetSize().x ) / 2;
pad->SetX0( oX );
wxPoint padpos = pad->GetPos0() + aModule->GetPosition();
RotatePoint( &padpos.x, &padpos.y,
aModule->GetPosition().x, aModule->GetPosition().y, aModule->GetOrientation() );
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pad->SetPosition( padpos );
tw = GetBoard()->GetCurrentTrackWidth();
next_pad->SetSize( wxSize( tw, tw ) );
next_pad->SetY0( 0 );
next_pad->SetX0( oX + gap_size + next_pad->GetSize().x );
padpos = next_pad->GetPos0() + aModule->GetPosition();
RotatePoint( &padpos.x, &padpos.y,
aModule->GetPosition().x, aModule->GetPosition().y, aModule->GetOrientation() );
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next_pad->SetPosition( padpos );
aModule->Draw( m_canvas, DC, GR_OR );
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}