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flightgear/Simulator/Cockpit/hud_inst.cxx

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// Abstract Base Class instr_item
//
#ifdef HAVE_CONFIG_H
# include <config.h>
#endif
#ifdef HAVE_WINDOWS_H
# include <windows.h>
#endif
#include <stdlib.h>
#include <string.h>
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#include <Aircraft/aircraft.hxx>
#include <Include/fg_constants.h>
#include <Math/fg_random.h>
#include <Math/mat3.h>
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#include <Math/polar3d.hxx>
#include <Scenery/scenery.hxx>
#include <Time/fg_timer.hxx>
#include "hud.hxx"
UINT instr_item :: instances = 0; // Initial value of zero
int instr_item :: brightness = BRT_MEDIUM;
glRGBTRIPLE instr_item :: color = {0.1, 0.7, 0.0};
// constructor ( No default provided )
instr_item ::
instr_item( int x,
int y,
UINT width,
UINT height,
DBLFNPTR data_source,
double data_scaling,
UINT options,
bool working) :
handle ( ++instances ),
load_value_fn ( data_source ),
disp_factor ( data_scaling ),
opts ( options ),
is_enabled ( working ),
broken ( FALSE )
{
scrn_pos.left = x;
scrn_pos.top = y;
scrn_pos.right = width;
scrn_pos.bottom = height;
// Set up convenience values for centroid of the box and
// the span values according to orientation
if( opts & HUDS_VERT) { // Vertical style
// Insure that the midpoint marker will fall exactly at the
// middle of the bar.
if( !(scrn_pos.bottom % 2)) {
scrn_pos.bottom++;
}
scr_span = scrn_pos.bottom;
}
else {
// Insure that the midpoint marker will fall exactly at the
// middle of the bar.
if( !(scrn_pos.right % 2)) {
scrn_pos.right++;
}
scr_span = scrn_pos.right;
}
// Here we work out the centroid for the corrected box.
mid_span.x = scrn_pos.left + (scrn_pos.right >> 1);
mid_span.y = scrn_pos.top + (scrn_pos.bottom >> 1);
}
// copy constructor
instr_item ::
instr_item ( const instr_item & image ):
handle ( ++instances ),
scrn_pos ( image.scrn_pos ),
load_value_fn( image.load_value_fn),
disp_factor ( image.disp_factor ),
opts ( image.opts ),
is_enabled ( image.is_enabled ),
broken ( image.broken ),
scr_span ( image.scr_span ),
mid_span ( image.mid_span )
{
}
// assignment operator
instr_item & instr_item :: operator = ( const instr_item & rhs )
{
if( !(this == &rhs )) { // Not an identity assignment
scrn_pos = rhs.scrn_pos;
load_value_fn = rhs.load_value_fn;
disp_factor = rhs.disp_factor;
opts = rhs.opts;
is_enabled = rhs.is_enabled;
broken = rhs.broken;
}
return *this;
}
// destructor
instr_item :: ~instr_item ()
{
if( instances ) {
instances--;
}
}
void instr_item ::
update( void )
{
}
// break_display This is emplaced to provide hooks for making
// instruments unreliable. The default behavior is
// to simply not display, but more sophisticated behavior is available
// by over riding the function which is virtual in this class.
void instr_item ::
break_display ( bool bad )
{
broken = !!bad;
is_enabled = FALSE;
}
void instr_item ::
SetBrightness ( int level )
{
brightness = level; // This is all we will do for now. Later the
// brightness levels will be sensitive both to
// the control knob and the outside light levels
// to emulated night vision effects.
}
UINT instr_item :: get_Handle( void )
{
return handle;
}