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f045b49df5
OSCAR-code/Graphs/gYAxis.cpp
Mark Watkins f045b49df5 Weighted Average & TAP Graph fixes
2011-08-07 21:37:56 +10:00

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/********************************************************************
gYAxis Implementation
Copyright (c)2011 Mark Watkins <jedimark@users.sourceforge.net>
License: GPL
*********************************************************************/
#include <math.h>
#include <QDebug>
#include "gYAxis.h"
gYAxis::gYAxis(QColor col)
:gLayer(EmptyChannel)
{
m_line_color=col;
m_text_color=col;
m_major_color=QColor(190,190,190,64);
m_minor_color=QColor(220,220,220,64);
m_show_major_lines=true;
m_show_minor_lines=true;
m_yaxis_scale=1;
}
gYAxis::~gYAxis()
{
}
void gYAxis::Plot(gGraphWindow &w,float scrx,float scry)
{
float x,y;
int labelW=0;
double miny=w.min_y;
double maxy=w.max_y;
if (miny<0) {
miny=-MAX(fabs(miny),fabs(maxy));
}
double dy=maxy-miny;
if (dy<=0) {
//miny=miny;
maxy++;
dy=1;
}
int m;
if (maxy>500) {
m=ceil(maxy/100.0);
maxy=m*100;
m=floor(miny/100.0);
miny=m*100;
} else if (maxy>150) {
m=ceil(maxy/50.0);
maxy=m*50;
m=floor(miny/50.0);
miny=m*50;
} else if (maxy>80) {
m=ceil(maxy/20.0);
maxy=m*20;
m=floor(miny/20.0);
miny=m*20;
} else if (maxy>30) {
m=ceil(maxy/10.0);
maxy=m*10;
m=floor(miny/10.0);
miny=m*10;
} else if (maxy>5) {
m=ceil(maxy/5.0);
maxy=m*5;
m=floor(miny/5.0);
miny=m*5;
} else {
//maxy=ceil(maxy);
//if (maxy<1) maxy=1;
//miny=floor(miny);
//if (miny<1) miny=0;
}
//if ((w.max_x-w.min_x)==0)
// return;
int start_px=w.GetLeftMargin();
int start_py=w.GetBottomMargin();
int width=scrx-(w.GetRightMargin()+start_px);
int topm=w.GetTopMargin();
int height=scry-(topm+start_py);
if (height<0) return;
QString fd="0";
GetTextExtent(fd,x,y);
double max_yticks=round(height / (y+15.0)); // plus spacing between lines
double yt=1/max_yticks;
double mxy=MAX(fabs(maxy),fabs(miny));
double mny=miny;
if (miny<0) {
mny=-mxy;
} else {
}
//double mny=MIN(fabs(maxy),fabs(miny));
//if (miny<0) mny=-mny;
//if (maxy<0) mxy=-mxy;
//mny=miny;
//mxy=maxy;
double rxy=mxy-mny;
double ymult=height/rxy;
double min_ytick=rxy*yt;
float ty,h;
qint32 vertcnt=0;
GLshort * vertarray=(GLshort *)vertex_array[0];
qint32 minorvertcnt=0;
GLshort * minorvertarray=(GLshort *)vertex_array[1];
qint32 majorvertcnt=0;
GLshort * majorvertarray=(GLshort *)vertex_array[2];
if ((vertarray==NULL) || (minorvertarray==NULL) || (majorvertarray==NULL)) {
qWarning() << "gYAxis::Plot() VertArray==NULL";
return;
}
if (min_ytick<=0) {
qDebug() << "min_ytick error in gYAxis::Plot()";
return;
}
if (min_ytick>=1000000) {
min_ytick=100;
}
double q=((maxy-(miny+(min_ytick/2.0)))/min_ytick)*4;
if (q>=maxverts) {
qDebug() << "Would exeed maxverts. Should be another two bounds exceeded messages after this. (I can do a minor optimisation by disabling the other checks if this turns out to be consistent)" << q << maxverts;
}
/*for (double i=miny+(min_ytick/2.0); i<maxy; i+=min_ytick) {
ty=(i - miny) * ymult;
h=(start_py+height)-ty;
vertarray[vertcnt++]=start_px-4;
vertarray[vertcnt++]=h;
vertarray[vertcnt++]=start_px;
vertarray[vertcnt++]=h;
if (m_show_minor_lines) {// && (i > miny)) {
double z=(min_ytick/5)*ymult;
double g=h;
for (int i=0;i<4;i++) {
g+=z;
minorvertarray[minorvertcnt++]=start_px+1;
minorvertarray[minorvertcnt++]=g;
minorvertarray[minorvertcnt++]=start_px+width;
minorvertarray[minorvertcnt++]=g;
}
}
if (vertcnt>=maxverts) { // Should only need to check one.. The above check should be enough.
qWarning() << "vertarray bounds exceeded in gYAxis for " << w.Title() << "graph" << "MinY =" <<miny << "MaxY =" << maxy << "min_ytick=" <<min_ytick;
break;
}
} */
w.qglColor(m_text_color);
for (double i=miny; i<=maxy+min_ytick-0.00001; i+=min_ytick) {
ty=(i - miny) * ymult;
fd=Format(i*m_yaxis_scale); // Override this as a function.
GetTextExtent(fd,x,y);
if (x>labelW) labelW=x;
h=start_py+ty;
//w.renderText(start_px-12-x,scry-(h-(y/2.0)),fd);
DrawText(w,fd,start_px-8-x,scry-(h-(y/2.0)),0,m_text_color);
vertarray[vertcnt++]=start_px-4;
vertarray[vertcnt++]=h;
vertarray[vertcnt++]=start_px;
vertarray[vertcnt++]=h;
if (m_show_major_lines && (i > miny)) {
majorvertarray[majorvertcnt++]=start_px;
majorvertarray[majorvertcnt++]=h;
majorvertarray[majorvertcnt++]=start_px+width;
majorvertarray[majorvertcnt++]=h;
}
double z=(min_ytick/4)*ymult;
double g=h;
for (int i=0;i<3;i++) {
g+=z;
if (g>start_py+height) break;
vertarray[vertcnt++]=start_px-3;
vertarray[vertcnt++]=g;
vertarray[vertcnt++]=start_px;
vertarray[vertcnt++]=g;
if (vertcnt>=maxverts) {
qWarning() << "vertarray bounds exceeded in gYAxis for " << w.Title() << "graph" << "MinY =" <<miny << "MaxY =" << maxy << "min_ytick=" <<min_ytick;
break;
}
if (m_show_minor_lines) {// && (i > miny)) {
minorvertarray[minorvertcnt++]=start_px;
minorvertarray[minorvertcnt++]=g;
minorvertarray[minorvertcnt++]=start_px+width;
minorvertarray[minorvertcnt++]=g;
}
}
if (vertcnt>=maxverts) {
qWarning() << "vertarray bounds exceeded in gYAxis for " << w.Title() << "graph" << "MinY =" <<miny << "MaxY =" << maxy << "min_ytick=" <<min_ytick;
break;
}
}
if (vertcnt>=maxverts) {
qWarning() << "yAxis tickers and display should be corrupted, because something dumb is happening in " << w.Title() << "graph";
return;
}
// Draw the lines & ticks
// Turn on blending??
glLineWidth(1);
w.qglColor(m_line_color);
glEnableClientState(GL_VERTEX_ARRAY);
glVertexPointer(2, GL_SHORT, 0, vertarray);
glDrawArrays(GL_LINES, 0, vertcnt>>1);
w.qglColor(m_minor_color);
glVertexPointer(2, GL_SHORT, 0, minorvertarray);
glDrawArrays(GL_LINES, 0, minorvertcnt>>1);
w.qglColor(m_major_color);
glVertexPointer(2, GL_SHORT, 0, majorvertarray);
glDrawArrays(GL_LINES, 0, majorvertcnt>>1);
glDisableClientState(GL_VERTEX_ARRAY); // deactivate vertex arrays after drawing
}
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