Commit b3c064b0 authored by charras's avatar charras

Thermal shapes modification for round and oblong pads.

This is a workaround for a bug (i believe) of kbool.
parent 134c07f9
......@@ -421,23 +421,23 @@ void AddThermalReliefPadPolygon( Bool_Engine* aBooleng,
// The pattern roughtly is a 90 deg arc pie
std::vector <wxPoint> corners_buffer;
// Radius of outer arcs of the shape:
int outer_radius = dx + aThermalGap; // The radius of the outer arc is pad radius + aThermalGap
// Crosspoint of thermal spoke sides, the first point of polygon buffer
corners_buffer.push_back( wxPoint( copper_tickness.x / 2, copper_tickness.y / 2 ) );
// Add an intermediate point on spoke sides, to allow a > 90 deg angle between side and first seg of arc approx
corner.x = copper_tickness.x / 2;
int y = dx + aThermalGap - (aThermalGap / 3);
int y = outer_radius - (aThermalGap / 4);
corner.y = (int) sqrt( ( ( (double) y * y ) - (double) corner.x * corner.x ) );
corners_buffer.push_back( corner );
// calculate the starting point of the outter arc
dx += aThermalGap; // The radius of the outter arc is dx = pad radius + aThermalGap
corner.x = copper_tickness.x / 2;
double dtmp = sqrt( ( (double) dx * dx ) - ( (double) corner.x * corner.x ) );
double dtmp = sqrt( ( (double) outer_radius * outer_radius ) - ( (double) corner.x * corner.x ) );
corner.y = (int) dtmp;
// calculates the position of the first point of the arc section
RotatePoint( &corner, delta );
RotatePoint( &corner, 90 );
// calculate the ending point of the outter arc
corner_end.x = corner.y;
......@@ -464,7 +464,7 @@ void AddThermalReliefPadPolygon( Bool_Engine* aBooleng,
// this seems a bug in kbool polygon
// angle = 450 (45.0 degrees orientation) seems work fine.
// angle = 0 with thermal shapes without angle < 90 deg seems works fine also
angle = 450;
angle = 0;
int angle_pad = aPad.m_Orient; // Pad orientation
for( unsigned ihole = 0; ihole < 4; ihole++ )
{
......@@ -505,8 +505,11 @@ void AddThermalReliefPadPolygon( Bool_Engine* aBooleng,
supp_angle = 900;
EXCHG( copper_tickness.x, copper_tickness.y);
}
int deltasize = dx - dy;
int deltasize = dx - dy; // = distance between shape position and the 2 demi-circle ends centre
// here we have dx > dy
// Radius of outer arcs of the shape:
int outer_radius = dy; // The radius of the outer arc is radius end + aThermalGap
// Some coordinate fiddling, depending on the shape offset direction
shape_offset = wxPoint( deltasize, 0 );
......@@ -518,31 +521,38 @@ void AddThermalReliefPadPolygon( Bool_Engine* aBooleng,
{
corner.x = copper_tickness.x / 2;
corner.y =
(int) sqrt( (double) ( dy * dy ) -
( ( corner.x - delta ) * ( corner.x - deltasize ) ) );
(int) sqrt( ((double)outer_radius * outer_radius ) -
( (double)( corner.x - delta ) * ( corner.x - deltasize ) ) );
corner.x -= deltasize;
/* creates an intermediate point, to have a > 90 deg angle
* between the side and the first segment of arc approximation
*/
wxPoint intpoint = corner;
intpoint.y -= aThermalGap/3;
intpoint.y -= aThermalGap/4;
corners_buffer.push_back( intpoint + shape_offset );
RotatePoint( &corner, delta );
RotatePoint( &corner, 90 );
}
else
{
corner.x = copper_tickness.x / 2;
corner.y = dy;
corner.y = outer_radius;
corners_buffer.push_back( corner );
corner.x = ( deltasize - copper_tickness.x ) / 2;
}
// Add an intermediate point on spoke sides, to allow a > 90 deg angle between side and first seg of arc approx
wxPoint last_corner;
last_corner.y = copper_tickness.y / 2;
int px = outer_radius - (aThermalGap / 4);
last_corner.x = (int) sqrt( ( ( (double) px * px ) - (double) last_corner.y * last_corner.y ) );
// Arc stop point calculation, the intersecting point of cutout arc and thermal spoke edge
corner_end.y = copper_tickness.y / 2;
corner_end.x = (int) sqrt( (double) ( ( dx * dx ) - ( corner_end.y * corner_end.y ) ) );
corner_end.x = (int) sqrt( ( (double) outer_radius * outer_radius ) - ( (double) corner_end.y * corner_end.y ) );
RotatePoint( &corner_end, -90 );
// calculate intermediate points till limit is reached
// calculate intermediate arc points till limit is reached
while( (corner.y > corner_end.y) && (corner.x < corner_end.x) )
{
corners_buffer.push_back( corner + shape_offset );
......@@ -550,14 +560,8 @@ void AddThermalReliefPadPolygon( Bool_Engine* aBooleng,
}
//corners_buffer.push_back(corner + shape_offset); // TODO: about one mil geometry error forms somewhere.
/* Moves the last point, to have a > 90 deg angle
* between the side and the last segment of arc approximation
*/
// TODO: calculate a better point, in order to have to have
// a best shape.
corner_end.x -= aThermalGap/3;
corners_buffer.pop_back();
corners_buffer.push_back( corner_end ); // Enabling the line above shows intersection point.
corners_buffer.push_back( corner_end + shape_offset );
corners_buffer.push_back( last_corner + shape_offset ); // Enabling the line above shows intersection point.
/* Create 2 holes, rotated by pad rotation.
*/
......
......@@ -541,7 +541,7 @@ void ArmBoolEng( Bool_Engine* aBooleng, bool aConvertHoles )
double DGRID = 1.0; // round coordinate X or Y value in calculations to this (initial value = 1000.0 in kbool example)
// Note: in kicad, coordinates are already integer so DGRID can be set to 1
double MARGE = 2.0; // snap with in this range points to lines in the intersection routines
double MARGE = 0.1; // snap with in this range points to lines in the intersection routines
// should always be > DGRID a MARGE >= 10*DGRID is ok
// this is also used to remove small segments and to decide when
// two segments are in line. ( initial value = 0.001 )
......@@ -577,7 +577,7 @@ void ArmBoolEng( Bool_Engine* aBooleng, bool aConvertHoles )
}
else
{
aBooleng->SetLinkHoles( false ); // holes will not ce connected by double overlapping segments
aBooleng->SetLinkHoles( false ); // holes will not be connected by double overlapping segments
aBooleng->SetOrientationEntryMode( true ); // holes are entered counter clockwise
}
}
......
Markdown is supported
0% or
You are about to add 0 people to the discussion. Proceed with caution.
Finish editing this message first!
Please register or to comment