#ifdef HAVE_CONFIG_H # include "config.h" #endif #include #include "hud.hxx" #ifdef USE_HUD_TextList #define textString( x , y, text, digit) TextString( text, x , y ,digit ) //suma #else #define textString( x , y, text, digit ) puDrawString ( guiFnt, text, x, y ); //suma #endif //========== Top of hud_card class member definitions ============= //begin suma #include #include #include //end suma hud_card :: hud_card( int x, int y, UINT width, UINT height, FLTFNPTR data_source, UINT options, float max_value, // 360 float min_value, // 0 float disp_scaling, UINT major_divs, UINT minor_divs, UINT modulus, // 360 int dp_showing, float value_span, string card_type, bool tick_bottom, bool tick_top, bool tick_right, bool tick_left, bool cap_bottom, bool cap_top, bool cap_right, bool cap_left, float mark_offset, bool pointer_enable, string type_pointer, string type_tick,//hud string length_tick,//hud bool working, float rad,//suma int divs, //suma int zooms //suma ) : //suma instr_scale( x,y,width,height, data_source, options, value_span, max_value, min_value, disp_scaling, major_divs, minor_divs, modulus, working), val_span ( value_span), type ( card_type), draw_tick_bottom (tick_bottom), draw_tick_top (tick_top), draw_tick_right (tick_right), draw_tick_left (tick_left), draw_cap_bottom (cap_bottom), draw_cap_top (cap_top), draw_cap_right (cap_right), draw_cap_left (cap_left), marker_offset (mark_offset), pointer (pointer_enable), pointer_type (type_pointer), tick_type (type_tick), //hud tick_length (length_tick), //hud Maj_div (major_divs), //suma Min_div (minor_divs) //suma { half_width_units = range_to_show() / 2.0; radius=rad; //suma maxValue=max_value; //suma minValue=min_value; //suma divisions=divs; //suma zoom = zooms; //suma // UINT options = get_options(); // huds_both = (options & HUDS_BOTH) == HUDS_BOTH; // huds_right = options & HUDS_RIGHT; // huds_left = options & HUDS_LEFT; // huds_vert = options & HUDS_VERT; // huds_notext = options & HUDS_NOTEXT; // huds_top = options & HUDS_TOP; // huds_bottom = options & HUDS_BOTTOM; } hud_card :: ~hud_card() { } hud_card :: hud_card( const hud_card & image): instr_scale( (const instr_scale & ) image), val_span( image.val_span), type(image.type), half_width_units (image.half_width_units), draw_tick_bottom (image.draw_tick_bottom), draw_tick_top (image.draw_tick_top), draw_tick_right (image.draw_tick_right), draw_tick_left (image.draw_tick_left), draw_cap_bottom (image.draw_cap_bottom), draw_cap_top (image.draw_cap_top), draw_cap_right (image.draw_cap_right), draw_cap_left (image.draw_cap_left), marker_offset (image.marker_offset), pointer (image.pointer), pointer_type (image.pointer_type), tick_type(image.tick_type), //hud tick_length(image.tick_length), //hud Maj_div(image.Maj_div), //suma Min_div(image.Min_div)//suma { // UINT options = get_options(); // huds_both = (options & HUDS_BOTH) == HUDS_BOTH; // huds_right = options & HUDS_RIGHT; // huds_left = options & HUDS_LEFT; // huds_vert = options & HUDS_VERT; // huds_notext = options & HUDS_NOTEXT; // huds_top = options & HUDS_TOP; // huds_bottom = options & HUDS_BOTTOM; } hud_card & hud_card :: operator = (const hud_card & rhs ) { if( !( this == &rhs)){ instr_scale::operator = (rhs); val_span = rhs.val_span; half_width_units = rhs.half_width_units; draw_tick_bottom = rhs.draw_tick_bottom; draw_tick_top = rhs.draw_tick_top; draw_tick_right = rhs.draw_tick_right; draw_tick_left = rhs.draw_tick_left; draw_cap_bottom = rhs.draw_cap_bottom; draw_cap_top = rhs.draw_cap_top; draw_cap_right = rhs.draw_cap_right; draw_cap_left = rhs.draw_cap_left; marker_offset = rhs.marker_offset; type = rhs.type; pointer = rhs.pointer; pointer_type = rhs.pointer_type; tick_type = rhs.tick_type; tick_length = rhs.tick_length; Maj_div = rhs.Maj_div; //suma Min_div = rhs.Min_div; //suma } return *this; } void hud_card :: draw( void ) // (HUD_scale * pscale ) { float vmin = 0.0, vmax = 0.0; int marker_xs; int marker_xe; int marker_ys; int marker_ye; int text_x = 0, text_y = 0; int lenstr; int height, width; int i, last; char TextScale[80]; bool condition; int disp_val = 0; int oddtype, k; //odd or even values for ticks POINT mid_scr = get_centroid(); float cur_value = get_value(); if (!((int)maxValue%2) ) oddtype =0; //draw ticks at even values else oddtype = 1;//draw ticks at odd values RECT scrn_rect = get_location(); UINT options = get_options(); height = scrn_rect.top + scrn_rect.bottom; width = scrn_rect.left + scrn_rect.right; //begin suma // if type=gauge then display dial if(type=="gauge") { float x,y; float i; y=(float)(scrn_rect.top); x=(float)(scrn_rect.left); glEnable(GL_POINT_SMOOTH); glPointSize(3.0); float incr= 360.0/divisions; for(i=0.0;i<360.0;i+=incr) { float i1=i*SGD_DEGREES_TO_RADIANS; float x1=x+radius*cos(i1); float y1=y+radius*sin(i1); glBegin(GL_POINTS); glVertex2f(x1,y1); glEnd(); } glPointSize(1.0); glDisable(GL_POINT_SMOOTH); if(data_available()) { float offset = 90.0*SGD_DEGREES_TO_RADIANS; float r1=10.0; //size of carrot float theta= get_value(); float theta1= -theta*SGD_DEGREES_TO_RADIANS+offset; float x1=x+radius*cos(theta1); float y1=y+radius*sin(theta1); float x2=x1-r1*cos(theta1-30.0*SGD_DEGREES_TO_RADIANS); float y2=y1-r1*sin(theta1-30.0*SGD_DEGREES_TO_RADIANS); float x3=x1-r1*cos(theta1+30.0*SGD_DEGREES_TO_RADIANS); float y3=y1-r1*sin(theta1+30.0*SGD_DEGREES_TO_RADIANS); // draw carrot drawOneLine(x1,y1,x2,y2); drawOneLine(x1,y1,x3,y3); sprintf(TextScale,"%3.1f\n",theta); // draw value int l = abs((int)theta); if (l) { if( l<10) textString (x,y,TextScale,0 ); else if(l<100) textString (x-1.0,y,TextScale,0 ); else if( l<360 ) textString (x-2.0,y,TextScale,0 ); } } //end type=gauge } else { // if its not explicitly a gauge default to tape if(pointer) { if(pointer_type=="moving") { vmin = minValue; vmax = maxValue; } else { // default to fixed vmin = cur_value - half_width_units; // width units == needle travel vmax = cur_value + half_width_units; // or picture unit span. text_x = mid_scr.x; text_y = mid_scr.y; } } else { vmin = cur_value - half_width_units; // width units == needle travel vmax = cur_value + half_width_units; // or picture unit span. text_x = mid_scr.x; text_y = mid_scr.y; } // Draw the basic markings for the scale... if( huds_vert(options) ) { // Vertical scale if (draw_tick_bottom) { drawOneLine( scrn_rect.left, // Bottom tick bar scrn_rect.top, width, scrn_rect.top); } // endif draw_tick_bottom if (draw_tick_top) { drawOneLine( scrn_rect.left, // Top tick bar height, width, height ); } // endif draw_tick_top marker_xs = scrn_rect.left; // x start marker_xe = width; // x extent marker_ye = height; // glBegin(GL_LINES); // Bottom tick bar // glVertex2f( marker_xs, scrn_rect.top); // glVertex2f( marker_xe, scrn_rect.top); // Top tick bar // glVertex2f( marker_xs, marker_ye); // glVertex2f( marker_xe, marker_ye ); // glEnd(); // We do not use else in the following so that combining the // two options produces a "caged" display with double // carrots. The same is done for horizontal card indicators. // begin vertical/left //First draw capping lines and pointers if( huds_left(options) ) { // Calculate x marker offset if (draw_cap_right) { drawOneLine( marker_xe, scrn_rect.top, marker_xe, marker_ye); // Cap right side } //endif cap_right marker_xs = marker_xe - scrn_rect.right / 3; // Adjust tick xs // drawOneLine( marker_xs, mid_scr.y, // marker_xe, mid_scr.y + scrn_rect.right / 6); // drawOneLine( marker_xs, mid_scr.y, // marker_xe, mid_scr.y - scrn_rect.right / 6); // draw pointer if(pointer) { if(pointer_type=="moving") { if(zoom == 0) { //Code for Moving Type Pointer included by suma. float ycentre, ypoint,xpoint; int range,wth; if(cur_value > maxValue) cur_value = maxValue; if(cur_value < minValue) cur_value = minValue; if (minValue >= 0.0) ycentre = scrn_rect.top; else if (maxValue + minValue == 0.0) ycentre = mid_scr.y; else if (oddtype == 1) ycentre = scrn_rect.top + (1.0-minValue)*scrn_rect.bottom/(maxValue-minValue); else ycentre = scrn_rect.top + minValue*scrn_rect.bottom/(maxValue-minValue); range = scrn_rect.bottom; wth = scrn_rect.left + scrn_rect.right; if (oddtype == 1) ypoint = ycentre + ((cur_value-1.0) * range / val_span); else ypoint = ycentre + (cur_value * range / val_span); xpoint = wth + marker_offset; drawOneLine(xpoint,ycentre,xpoint,ypoint); drawOneLine(xpoint,ypoint,xpoint-marker_offset,ypoint); drawOneLine(xpoint-marker_offset,ypoint,xpoint-5.0,ypoint+5.0); drawOneLine(xpoint-marker_offset,ypoint,xpoint-5.0,ypoint-5.0); }//zoom=0 } else { // default to fixed fixed(marker_offset+marker_xe, text_y + scrn_rect.right / 6, marker_offset+marker_xs, text_y,marker_offset+marker_xe, text_y - scrn_rect.right / 6); }//end pointer type } //if pointer } //end vertical/left // begin vertical/right //First draw capping lines and pointers if( huds_right(options) ) { // We'll default this for now. if (draw_cap_left) { drawOneLine( scrn_rect.left, scrn_rect.top, scrn_rect.left, marker_ye ); // Cap left side } //endif cap_left marker_xe = scrn_rect.left + scrn_rect.right / 3; // Adjust tick xe // Indicator carrot // drawOneLine( scrn_rect.left, mid_scr.y + scrn_rect.right / 6, // marker_xe, mid_scr.y ); // drawOneLine( scrn_rect.left, mid_scr.y - scrn_rect.right / 6, // marker_xe, mid_scr.y); // draw pointer if(pointer) { if(pointer_type=="moving") { if(zoom == 0) { //type-fixed & zoom=1, behaviour to be defined // Code for Moving Type Pointer included by suma. float ycentre, ypoint,xpoint; int range; if(cur_value > maxValue) cur_value = maxValue; if(cur_value < minValue) cur_value = minValue; if (minValue >= 0.0) ycentre = scrn_rect.top; else if (maxValue + minValue == 0.0) ycentre = mid_scr.y; else if (oddtype == 1) ycentre = scrn_rect.top + (1.0-minValue)*scrn_rect.bottom/(maxValue-minValue); else ycentre = scrn_rect.top + minValue*scrn_rect.bottom/(maxValue-minValue); range = scrn_rect.bottom; if (oddtype == 1) ypoint = ycentre + ((cur_value-1.0) * range / val_span); else ypoint = ycentre + (cur_value * range / val_span); xpoint = scrn_rect.left - marker_offset; drawOneLine(xpoint,ycentre,xpoint,ypoint); drawOneLine(xpoint,ypoint,xpoint+marker_offset,ypoint); drawOneLine(xpoint+marker_offset,ypoint,xpoint+5.0,ypoint+5.0); drawOneLine(xpoint+marker_offset,ypoint,xpoint+5.0,ypoint-5.0); } } else { // default to fixed fixed( -marker_offset+scrn_rect.left, text_y + scrn_rect.right / 6, -marker_offset+marker_xe, text_y,-marker_offset+scrn_rect.left, text_y - scrn_rect.right / 6); } } //if pointer } //end vertical/right // At this point marker x_start and x_end values are transposed. // To keep this from confusing things they are now interchanged. if(huds_both(options)) { marker_ye = marker_xs; marker_xs = marker_xe; marker_xe = marker_ye; } // Work through from bottom to top of scale. Calculating where to put // minor and major ticks. // draw scale or tape // last = FloatToInt(vmax)+1; // i = FloatToInt(vmin); last = (int)vmax + 1; // N i = (int)vmin; // N if(zoom ==1) { zoomed_scale((int)vmin,(int)vmax); //suma } else { for( ; i (height - 4))) { // Magic numbers!!! continue; } if (oddtype == 1) k = i+1; //enable ticks at odd values else k = i; // Minor ticks if( div_min()) { // if( (i%div_min()) == 0) { if( !(k%(int)div_min())) { if((( marker_ys - 5) > scrn_rect.top ) && (( marker_ys + 5) < (height))) { //vertical/left OR vertical/right if( huds_both(options) ) { if(tick_type=="line") { if(tick_length=="variable") { drawOneLine( scrn_rect.left, marker_ys, marker_xs, marker_ys ); drawOneLine( marker_xe, marker_ys, width, marker_ys ); } else { drawOneLine( scrn_rect.left, marker_ys, marker_xs, marker_ys ); drawOneLine( marker_xe, marker_ys, width, marker_ys ); } } else if(tick_type=="circle") // begin suma this func. is written below circles(scrn_rect.left,(float)marker_ys,3.0); //end suma else { // if neither line nor circle draw default as line drawOneLine( scrn_rect.left, marker_ys, marker_xs, marker_ys ); drawOneLine( marker_xe, marker_ys, width, marker_ys ); } // glBegin(GL_LINES); // glVertex2f( scrn_rect.left, marker_ys ); // glVertex2f( marker_xs, marker_ys ); // glVertex2f( marker_xe, marker_ys); // glVertex2f( scrn_rect.left + scrn_rect.right, marker_ys ); // glEnd(); // anything other than huds_both } else { if( huds_left(options) ) { if(tick_type=="line") { if(tick_length=="variable") { drawOneLine( marker_xs + 4, marker_ys, marker_xe, marker_ys ); } else { drawOneLine( marker_xs , marker_ys, marker_xe, marker_ys ); } } else if(tick_type=="circle") // begin suma circles((float)marker_xs + 4, (float)marker_ys,3.0); //end suma else { drawOneLine( marker_xs + 4, marker_ys, marker_xe, marker_ys ); } } else { if(tick_type=="line") { if(tick_length=="variable") { drawOneLine( marker_xs, marker_ys, marker_xe - 4, marker_ys ); } else { drawOneLine( marker_xs, marker_ys, marker_xe , marker_ys ); } } else if(tick_type=="circle") //begin suma circles((float)marker_xe - 4, (float)marker_ys,3.0); //end suma else { drawOneLine( marker_xs, marker_ys, marker_xe - 4, marker_ys ); } } } //end huds both } } //end draw minor ticks } //end minor ticks // Major ticks if( div_max() ) { if( !(k%(int)div_max()) ) { if(modulo()) { disp_val = i % (int) modulo(); // ????????? if( disp_val < 0) { while(disp_val < 0) disp_val += modulo(); } } else { disp_val = i; } lenstr = sprintf( TextScale, "%d", FloatToInt(disp_val * data_scaling()/*+.5*/)); // (int)(disp_val * data_scaling() +.5)); /* if(( (marker_ys - 8 ) > scrn_rect.top ) && ( (marker_ys + 8) < (height))){ */ //suma // huds_both if( huds_both(options) ) { // drawOneLine( scrn_rect.left, marker_ys, // marker_xs, marker_ys); // drawOneLine( marker_xs, marker_ys, // scrn_rect.left + scrn_rect.right, // marker_ys); if(tick_type=="line") { glBegin(GL_LINE_STRIP); glVertex2f( scrn_rect.left, marker_ys ); glVertex2f( marker_xs, marker_ys); glVertex2f( width, marker_ys); glEnd(); } else if(tick_type=="circle") //begin suma circles(scrn_rect.left, (float)marker_ys,5.0); //end suma else { glBegin(GL_LINE_STRIP); glVertex2f( scrn_rect.left, marker_ys ); glVertex2f( marker_xs, marker_ys); glVertex2f( width, marker_ys); glEnd(); } if( !huds_notext(options)) { textString ( marker_xs + 2, marker_ys, TextScale,0 ); } } else { //begin suma /* Changes are made to draw a circle when tick_type="circle" */ // anything other than huds_both if(tick_type=="line") { drawOneLine( marker_xs, marker_ys, marker_xe, marker_ys ); } else if(tick_type=="circle") circles((float)marker_xs + 4, (float)marker_ys,5.0);//end suma else { drawOneLine( marker_xs, marker_ys, marker_xe, marker_ys ); } if( !huds_notext(options) ) { if( huds_left(options) ) { textString( marker_xs - 8 * lenstr - 2, marker_ys - 4, TextScale, 0 ); } else { textString( marker_xe + 3 * lenstr, marker_ys - 4, TextScale, 0 ); } //End if huds_left } //End if !huds_notext } //End if huds-both } // End if draw major ticks } // End if major ticks } // End condition } // End for } //end of zoom // End if VERTICAL SCALE TYPE (tape loop yet to be closed) } else { // Horizontal scale by default // left tick bar if (draw_tick_left) { drawOneLine( scrn_rect.left, scrn_rect.top, scrn_rect.left, height); } // endif draw_tick_left // right tick bar if (draw_tick_right) { drawOneLine( width, scrn_rect.top, width, height ); } // endif draw_tick_right marker_ys = scrn_rect.top; // Starting point for marker_ye = height; // tick y location calcs marker_xe = width; marker_xs = scrn_rect.left + FloatToInt((cur_value - vmin) * factor() /*+ .5f*/); // glBegin(GL_LINES); // left tick bar // glVertex2f( scrn_rect.left, scrn_rect.top); // glVertex2f( scrn_rect.left, marker_ye); // right tick bar // glVertex2f( marker_xe, scrn_rect.top); // glVertex2f( marker_xe, marker_ye ); // glEnd(); if( huds_top(options) ) { if (draw_cap_bottom) { // Bottom box line drawOneLine( scrn_rect.left, scrn_rect.top, width, scrn_rect.top); } //endif cap_bottom // Tick point adjust marker_ye = scrn_rect.top + scrn_rect.bottom / 2; // Bottom arrow // drawOneLine( mid_scr.x, marker_ye, // mid_scr.x - scrn_rect.bottom / 4, scrn_rect.top); // drawOneLine( mid_scr.x, marker_ye, // mid_scr.x + scrn_rect.bottom / 4, scrn_rect.top); // draw pointer if(pointer) { if(pointer_type=="moving") { if (zoom ==0) { //Code for Moving Type Pointer included by suma. // static float xcentre,xpoint,ypoint; // static int range; if(cur_value > maxValue) cur_value = maxValue; if(cur_value < minValue) cur_value = minValue; float xcentre = mid_scr.x; int range = scrn_rect.right; float xpoint = xcentre + (cur_value * range / val_span); float ypoint = scrn_rect.top - marker_offset; drawOneLine(xcentre, ypoint,xpoint,ypoint); drawOneLine(xpoint,ypoint,xpoint,ypoint+marker_offset); drawOneLine(xpoint,ypoint+marker_offset,xpoint+5.0,ypoint+5.0); drawOneLine(xpoint,ypoint+marker_offset,xpoint-5.0,ypoint+5.0); } } else { //default to fixed fixed( marker_xs - scrn_rect.bottom / 4, scrn_rect.top, marker_xs, marker_ye, marker_xs + scrn_rect.bottom / 4,scrn_rect.top); } } //if pointer } //End Horizontal scale/top if( huds_bottom(options) ) { // Top box line if (draw_cap_top) { drawOneLine( scrn_rect.left, height, width, height); } //endif cap_top // Tick point adjust marker_ys = height - scrn_rect.bottom / 2; // Top arrow // drawOneLine( mid_scr.x + scrn_rect.bottom / 4, // scrn_rect.top + scrn_rect.bottom, // mid_scr.x, marker_ys ); // drawOneLine( mid_scr.x - scrn_rect.bottom / 4, // scrn_rect.top + scrn_rect.bottom, // mid_scr.x , marker_ys ); // draw pointer if(pointer) { if(pointer_type=="moving") { if(zoom == 0) { //Code for Moving Type Pointer included by suma. // static float xcentre,xpoint,ypoint; // static int range,hgt; if(cur_value > maxValue) cur_value = maxValue; if(cur_value < minValue) cur_value = minValue; float xcentre = mid_scr.x ; int range = scrn_rect.right; int hgt = scrn_rect.top + scrn_rect.bottom; float xpoint = xcentre + (cur_value * range / val_span); float ypoint = hgt + marker_offset; drawOneLine(xcentre, ypoint,xpoint,ypoint); drawOneLine(xpoint,ypoint,xpoint,ypoint-marker_offset); drawOneLine(xpoint,ypoint-marker_offset,xpoint+5.0,ypoint-5.0); drawOneLine(xpoint,ypoint-marker_offset,xpoint-5.0,ypoint-5.0); } } else { fixed( marker_xs + scrn_rect.bottom / 4, height, marker_xs, marker_ys, marker_xs - scrn_rect.bottom / 4, height); } } //if pointer } //end horizontal scale bottom // if(( options & HUDS_BOTTOM) == HUDS_BOTTOM ) { // marker_xe = marker_ys; // marker_ys = marker_ye; // marker_ye = marker_xe; // } // printf("vmin = %d vmax = %d\n", (int)vmin, (int)vmax); // last = FloatToInt(vmax)+1; // i = FloatToInt(vmin); if(zoom ==1) { zoomed_scale((int)vmin,(int)vmax); //suma } else { //default to zoom=0 last = (int)vmax + 1; i = (int)vmin; for(; i i = %d\n", i); condition = true; if( !modulo()) { if( i < min_val()) { condition = false; } } // printf("<**> i = %d\n", i); if( condition ) { // marker_xs = scrn_rect.left + (int)((i - vmin) * factor() + .5); marker_xs = scrn_rect.left + FloatToInt(((i - vmin) * factor()/*+ .5f*/)); if (oddtype == 1) k = i+1; //enable ticks at odd values else k = i; if( div_min()) { // if( (i%(int)div_min()) == 0 ) { //draw minor ticks if( !(k%(int)div_min() )) { // draw in ticks only if they aren't too close to the edge. if((( marker_xs - 5) > scrn_rect.left ) && (( marker_xs + 5 )< (scrn_rect.left + scrn_rect.right))){ if( huds_both(options) ) { if(tick_length=="variable") { drawOneLine( marker_xs, scrn_rect.top, marker_xs, marker_ys - 4); drawOneLine( marker_xs, marker_ye + 4, marker_xs, height); } else { drawOneLine( marker_xs, scrn_rect.top, marker_xs, marker_ys); drawOneLine( marker_xs, marker_ye, marker_xs, height); } // glBegin(GL_LINES); // glVertex2f( marker_xs, scrn_rect.top); // glVertex2f( marker_xs, marker_ys - 4); // glVertex2f( marker_xs, marker_ye + 4); // glVertex2f( marker_xs, scrn_rect.top + scrn_rect.bottom); // glEnd(); } else { if( huds_top(options)) { //draw minor ticks if(tick_length=="variable") drawOneLine(marker_xs,marker_ys,marker_xs,marker_ye-4); else drawOneLine(marker_xs,marker_ys,marker_xs,marker_ye); } else if(tick_length=="variable") drawOneLine(marker_xs,marker_ys+4,marker_xs,marker_ye); else drawOneLine(marker_xs,marker_ys,marker_xs,marker_ye); } } } //end draw minor ticks } //end minor ticks //major ticks if( div_max()) { // printf("i = %d\n", i); // if( (i%(int)div_max())==0 ) { //draw major ticks if( !(k%(int)div_max()) ) { if(modulo()) { disp_val = i % (int) modulo(); // ????????? if( disp_val < 0) { while(disp_val<0) disp_val += modulo(); } } else { disp_val = i; } // printf("disp_val = %d\n", disp_val); // printf("%d\n", (int)(disp_val * (double)data_scaling() + 0.5)); lenstr = sprintf( TextScale, "%d", // (int)(disp_val * data_scaling() +.5)); FloatToInt(disp_val * data_scaling()/*+.5*/)); // Draw major ticks and text only if far enough from the edge. if(( (marker_xs - 10)> scrn_rect.left ) && ( (marker_xs + 10) < (scrn_rect.left + scrn_rect.right))){ if( huds_both(options) ) { // drawOneLine( marker_xs, scrn_rect.top, // marker_xs, marker_ys); // drawOneLine( marker_xs, marker_ye, // marker_xs, scrn_rect.top + scrn_rect.bottom); glBegin(GL_LINE_STRIP); glVertex2f( marker_xs, scrn_rect.top); glVertex2f( marker_xs, marker_ye); glVertex2f( marker_xs, height); glEnd(); if( !huds_notext(options) ) { textString ( marker_xs - 4 * lenstr, marker_ys + 4, TextScale, 0 ); //suma } } else { drawOneLine( marker_xs, marker_ys, marker_xs, marker_ye ); if( !huds_notext(options)) { if( huds_top(options) ) { textString ( marker_xs - 4 * lenstr, height - 10, TextScale, 0 ); //suma } else { textString( marker_xs - 4 * lenstr, scrn_rect.top, TextScale, 0 ); //suma } } } } } //end draw major ticks } //endif major ticks } //end condition } //end for } //end zoom } //end horizontal/vertical scale } // end of type tape } //draw //begin suma void hud_card :: circles(float x,float y,float size) { glEnable(GL_POINT_SMOOTH); glPointSize(size); glBegin(GL_POINTS); glVertex2f(x,y); glEnd(); glPointSize(1.0); glDisable(GL_POINT_SMOOTH); } //end suma void hud_card :: fixed(float x1, float y1, float x2, float y2, float x3, float y3) { glBegin(GL_LINE_STRIP); glVertex2f(x1, y1); glVertex2f(x2, y2); glVertex2f(x3, y3); glEnd(); } void hud_card :: zoomed_scale(int first, int last) { POINT mid_scr = get_centroid(); RECT scrn_rect = get_location(); UINT options = get_options(); char TextScale[80]; // int disp_val = 0; int data[80]; float x,y,w,h,bottom; float cur_value=get_value(); if(cur_value > maxValue) cur_value = maxValue; if(cur_value < minValue) cur_value = minValue; int a=0; while(first <= last) { if((first % (int)Maj_div) == 0) { data[a] = first; a++ ; } first++; } int centre =a/2; if( huds_vert(options) ) { x=scrn_rect.left; y=scrn_rect.top; w=scrn_rect.left+scrn_rect.right; h=scrn_rect.top+scrn_rect.bottom; bottom=scrn_rect.bottom; float xstart, yfirst, ycentre, ysecond; float hgt = bottom * 20.0 /100.0; // 60% of height should be zoomed yfirst = mid_scr.y - hgt; ycentre = mid_scr.y; ysecond = mid_scr.y + hgt; float range = hgt * 2; int i; float factor = range /10.0; float hgt1 = bottom * 30.0 /100.0; int incrs = ((int)val_span - (Maj_div * 2)) / Maj_div ; int incr = incrs / 2; float factors = hgt1 / incr; // begin //this is for moving type pointer static float ycent, ypoint,xpoint; static int wth; ycent = mid_scr.y; wth=scrn_rect.left+scrn_rect.right; if(cur_value <= data[centre+1]) if(cur_value > data[centre]) { ypoint = ycent + ((cur_value - data[centre]) * hgt/Maj_div); } if(cur_value >= data[centre-1]) if(cur_value <= data[centre]) { ypoint = ycent - ((data[centre]-cur_value) * hgt/Maj_div); } if(cur_value < data[centre-1]) if(cur_value >= minValue) { float diff = minValue - data[centre-1]; float diff1 = cur_value - data[centre-1]; float val = (diff1 * hgt1) / diff; ypoint = ycent - hgt - val; } if(cur_value > data[centre+1]) if(cur_value <= maxValue) { float diff = maxValue - data[centre+1]; float diff1 = cur_value - data[centre+1]; float val = (diff1 * hgt1) / diff; ypoint = ycent + hgt + val; } if(huds_left(options)) { xstart = w; drawOneLine( xstart, ycentre, xstart - 5.0, ycentre); //centre tick sprintf(TextScale,"%3.0f\n",(float)(data[centre] * data_scaling())); if( !huds_notext(options)) { textString (x, ycentre, TextScale, 0 ); } for(i=1;i<5;i++) { yfirst += factor; ycentre += factor; circles(xstart-2.5,yfirst, 3.0); circles(xstart-2.5,ycentre,3.0); } yfirst = mid_scr.y - hgt; for(i=0;i<=incr;i++) { drawOneLine( xstart, yfirst, xstart - 5.0, yfirst); drawOneLine( xstart,ysecond, xstart - 5.0,ysecond); sprintf(TextScale,"%3.0f\n",(float)(data[centre-i-1] * data_scaling())); if( !huds_notext(options)) textString (x, yfirst, TextScale, 0 ); sprintf(TextScale,"%3.0f\n",(float)(data[centre+i+1] * data_scaling())); if( !huds_notext(options)) textString (x, ysecond, TextScale, 0 ); yfirst -= factors; ysecond += factors; } //to draw moving type pointer for left option //begin xpoint = wth + 10.0; if(pointer_type == "moving") { drawOneLine(xpoint,ycent,xpoint,ypoint); drawOneLine(xpoint,ypoint,xpoint-10.0,ypoint); drawOneLine(xpoint-10.0,ypoint,xpoint-5.0,ypoint+5.0); drawOneLine(xpoint-10.0,ypoint,xpoint-5.0,ypoint-5.0); } //end } else { //huds_right xstart = (x+w)/2; drawOneLine( xstart, ycentre, xstart + 5.0, ycentre); //centre tick sprintf(TextScale,"%3.0f\n",(float)(data[centre] * data_scaling())); if( !huds_notext(options)) { textString (w, ycentre, TextScale, 0 ); } for(i=1;i<5;i++) { yfirst += factor; ycentre += factor; circles(xstart+2.5,yfirst, 3.0); circles(xstart+2.5,ycentre,3.0); } yfirst = mid_scr.y - hgt; for(i=0;i<=incr;i++) { drawOneLine( xstart, yfirst, xstart + 5.0, yfirst); drawOneLine( xstart,ysecond, xstart + 5.0,ysecond); sprintf(TextScale,"%3.0f\n",(float)(data[centre-i-1] * data_scaling())); if( !huds_notext(options)) textString (w, yfirst, TextScale, 0 ); sprintf(TextScale,"%3.0f\n",(float)(data[centre+i+1] * data_scaling())); if( !huds_notext(options)) textString (w, ysecond, TextScale, 0 ); yfirst -= factors; ysecond += factors; } // to draw moving type pointer for right option //begin xpoint = scrn_rect.left; if(pointer_type == "moving") { drawOneLine(xpoint,ycent,xpoint,ypoint); drawOneLine(xpoint,ypoint,xpoint+10.0,ypoint); drawOneLine(xpoint+10.0,ypoint,xpoint+5.0,ypoint+5.0); drawOneLine(xpoint+10.0,ypoint,xpoint+5.0,ypoint-5.0); } //end }//end huds_right /left //end of vertical scale } else { //horizontal scale x=scrn_rect.left; y=scrn_rect.top; w=scrn_rect.left+scrn_rect.right; h=scrn_rect.top+scrn_rect.bottom; bottom=scrn_rect.right; float ystart, xfirst, xcentre, xsecond; float hgt = bottom * 20.0 /100.0; // 60% of height should be zoomed xfirst = mid_scr.x - hgt; xcentre = mid_scr.x; xsecond = mid_scr.x + hgt; float range = hgt * 2; int i; float factor = range /10.0; float hgt1 = bottom * 30.0 /100.0; int incrs = ((int)val_span - (Maj_div * 2)) / Maj_div ; int incr = incrs / 2; float factors = hgt1 / incr; //Code for Moving Type Pointer //begin static float xcent,xpoint,ypoint; xcent = mid_scr.x; if(cur_value <= data[centre+1]) if(cur_value > data[centre]) { xpoint = xcent + ((cur_value - data[centre]) * hgt/Maj_div); } if(cur_value >= data[centre-1]) if(cur_value <= data[centre]) { xpoint = xcent - ((data[centre]-cur_value) * hgt/Maj_div); } if(cur_value < data[centre-1]) if(cur_value >= minValue) { float diff = minValue - data[centre-1]; float diff1 = cur_value - data[centre-1]; float val = (diff1 * hgt1) / diff; xpoint = xcent - hgt - val; } if(cur_value > data[centre+1]) if(cur_value <= maxValue) { float diff = maxValue - data[centre+1]; float diff1 = cur_value - data[centre+1]; float val = (diff1 * hgt1) / diff; xpoint = xcent + hgt + val; } //end if(huds_top(options)) { ystart =h; drawOneLine( xcentre, ystart, xcentre, ystart - 5.0); //centre tick sprintf(TextScale,"%3.0f\n",(float)(data[centre] * data_scaling())); if( !huds_notext(options)) { textString (xcentre-10.0, y, TextScale, 0 ); } for(i=1;i<5;i++) { xfirst += factor; xcentre += factor; circles(xfirst, ystart-2.5, 3.0); circles(xcentre, ystart-2.5, 3.0); } xfirst = mid_scr.x - hgt; for(i=0;i<=incr;i++) { drawOneLine( xfirst, ystart, xfirst, ystart - 5.0); drawOneLine( xsecond, ystart, xsecond, ystart - 5.0); sprintf(TextScale,"%3.0f\n",(float)(data[centre-i-1] * data_scaling())); if( !huds_notext(options)) textString (xfirst-10.0, y, TextScale, 0 ); sprintf(TextScale,"%3.0f\n",(float)(data[centre+i+1] * data_scaling())); if( !huds_notext(options)) textString (xsecond-10.0, y, TextScale, 0 ); xfirst -= factors; xsecond += factors; } //this is for moving pointer for top option //begin ypoint = scrn_rect.top + scrn_rect.bottom + 10.0; if(pointer_type == "moving") { drawOneLine(xcent, ypoint,xpoint,ypoint); drawOneLine(xpoint,ypoint,xpoint,ypoint-10.0); drawOneLine(xpoint,ypoint-10.0,xpoint+5.0,ypoint-5.0); drawOneLine(xpoint,ypoint-10.0,xpoint-5.0,ypoint-5.0); } //end of top option } else { //else huds_bottom ystart = (y+h)/2; //drawOneLine( xstart, yfirst, xstart - 5.0, yfirst ); drawOneLine( xcentre, ystart, xcentre, ystart + 5.0); //centre tick sprintf(TextScale,"%3.0f\n",(float)(data[centre] * data_scaling())); if( !huds_notext(options)) { textString (xcentre-10.0, h, TextScale, 0 ); } for(i=1;i<5;i++) { xfirst += factor; xcentre += factor; circles(xfirst, ystart+2.5, 3.0); circles(xcentre, ystart+2.5,3.0); } xfirst = mid_scr.x - hgt; for(i=0;i<=incr;i++) { drawOneLine( xfirst, ystart, xfirst, ystart + 5.0); drawOneLine( xsecond,ystart, xsecond,ystart + 5.0); sprintf(TextScale,"%3.0f\n",(float)(data[centre-i-1] * data_scaling())); if( !huds_notext(options)) textString (xfirst-10.0,h, TextScale, 0 ); sprintf(TextScale,"%3.0f\n",(float)(data[centre+i+1] * data_scaling())); if( !huds_notext(options)) textString (xsecond-10.0,h, TextScale, 0 ); xfirst -= factors; xsecond += factors; } //this is for movimg pointer for bottom option //begin ypoint = scrn_rect.top - 10.0; if(pointer_type == "moving") { drawOneLine(xcent, ypoint,xpoint,ypoint); drawOneLine(xpoint,ypoint,xpoint,ypoint+10.0); drawOneLine(xpoint,ypoint+10.0,xpoint+5.0,ypoint+5.0); drawOneLine(xpoint,ypoint+10.0,xpoint-5.0,ypoint+5.0); } //end }//end hud_top or hud_bottom } //end of horizontal/vertical scales }//end draw