libui/zOLD_examples/histogram/main.c

310 lines
7.6 KiB
C

// 13 october 2015
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include <time.h>
#include "../../ui.h"
uiWindow *mainwin;
uiArea *histogram;
uiAreaHandler handler;
uiSpinbox *datapoints[10];
uiColorButton *colorButton;
int currentPoint = -1;
// some metrics
#define xoffLeft 20 /* histogram margins */
#define yoffTop 20
#define xoffRight 20
#define yoffBottom 20
#define pointRadius 5
// helper to quickly set a brush color
static void setSolidBrush(uiDrawBrush *brush, uint32_t color, double alpha)
{
uint8_t component;
brush->Type = uiDrawBrushTypeSolid;
component = (uint8_t) ((color >> 16) & 0xFF);
brush->R = ((double) component) / 255;
component = (uint8_t) ((color >> 8) & 0xFF);
brush->G = ((double) component) / 255;
component = (uint8_t) (color & 0xFF);
brush->B = ((double) component) / 255;
brush->A = alpha;
}
// and some colors
// names and values from https://msdn.microsoft.com/en-us/library/windows/desktop/dd370907%28v=vs.85%29.aspx
#define colorWhite 0xFFFFFF
#define colorBlack 0x000000
#define colorDodgerBlue 0x1E90FF
static void pointLocations(double width, double height, double *xs, double *ys)
{
double xincr, yincr;
int i, n;
xincr = width / 9; // 10 - 1 to make the last point be at the end
yincr = height / 100;
for (i = 0; i < 10; i++) {
// get the value of the point
n = uiSpinboxValue(datapoints[i]);
// because y=0 is the top but n=0 is the bottom, we need to flip
n = 100 - n;
xs[i] = xincr * i;
ys[i] = yincr * n;
}
}
static uiDrawPath *constructGraph(double width, double height, int extend)
{
uiDrawPath *path;
double xs[10], ys[10];
int i;
pointLocations(width, height, xs, ys);
path = uiDrawNewPath(uiDrawFillModeWinding);
uiDrawPathNewFigure(path, xs[0], ys[0]);
for (i = 1; i < 10; i++)
uiDrawPathLineTo(path, xs[i], ys[i]);
if (extend) {
uiDrawPathLineTo(path, width, height);
uiDrawPathLineTo(path, 0, height);
uiDrawPathCloseFigure(path);
}
uiDrawPathEnd(path);
return path;
}
static void graphSize(double clientWidth, double clientHeight, double *graphWidth, double *graphHeight)
{
*graphWidth = clientWidth - xoffLeft - xoffRight;
*graphHeight = clientHeight - yoffTop - yoffBottom;
}
static void handlerDraw(uiAreaHandler *a, uiArea *area, uiAreaDrawParams *p)
{
uiDrawPath *path;
uiDrawBrush brush;
uiDrawStrokeParams sp;
uiDrawMatrix m;
double graphWidth, graphHeight;
double graphR, graphG, graphB, graphA;
// fill the area with white
setSolidBrush(&brush, colorWhite, 1.0);
path = uiDrawNewPath(uiDrawFillModeWinding);
uiDrawPathAddRectangle(path, 0, 0, p->AreaWidth, p->AreaHeight);
uiDrawPathEnd(path);
uiDrawFill(p->Context, path, &brush);
uiDrawFreePath(path);
// figure out dimensions
graphSize(p->AreaWidth, p->AreaHeight, &graphWidth, &graphHeight);
// clear sp to avoid passing garbage to uiDrawStroke()
// for example, we don't use dashing
memset(&sp, 0, sizeof (uiDrawStrokeParams));
// make a stroke for both the axes and the histogram line
sp.Cap = uiDrawLineCapFlat;
sp.Join = uiDrawLineJoinMiter;
sp.Thickness = 2;
sp.MiterLimit = uiDrawDefaultMiterLimit;
// draw the axes
setSolidBrush(&brush, colorBlack, 1.0);
path = uiDrawNewPath(uiDrawFillModeWinding);
uiDrawPathNewFigure(path,
xoffLeft, yoffTop);
uiDrawPathLineTo(path,
xoffLeft, yoffTop + graphHeight);
uiDrawPathLineTo(path,
xoffLeft + graphWidth, yoffTop + graphHeight);
uiDrawPathEnd(path);
uiDrawStroke(p->Context, path, &brush, &sp);
uiDrawFreePath(path);
// now transform the coordinate space so (0, 0) is the top-left corner of the graph
uiDrawMatrixSetIdentity(&m);
uiDrawMatrixTranslate(&m, xoffLeft, yoffTop);
uiDrawTransform(p->Context, &m);
// now get the color for the graph itself and set up the brush
uiColorButtonColor(colorButton, &graphR, &graphG, &graphB, &graphA);
brush.Type = uiDrawBrushTypeSolid;
brush.R = graphR;
brush.G = graphG;
brush.B = graphB;
// we set brush->A below to different values for the fill and stroke
// now create the fill for the graph below the graph line
path = constructGraph(graphWidth, graphHeight, 1);
brush.A = graphA / 2;
uiDrawFill(p->Context, path, &brush);
uiDrawFreePath(path);
// now draw the histogram line
path = constructGraph(graphWidth, graphHeight, 0);
brush.A = graphA;
uiDrawStroke(p->Context, path, &brush, &sp);
uiDrawFreePath(path);
// now draw the point being hovered over
if (currentPoint != -1) {
double xs[10], ys[10];
pointLocations(graphWidth, graphHeight, xs, ys);
path = uiDrawNewPath(uiDrawFillModeWinding);
uiDrawPathNewFigureWithArc(path,
xs[currentPoint], ys[currentPoint],
pointRadius,
0, 6.23, // TODO pi
0);
uiDrawPathEnd(path);
// use the same brush as for the histogram lines
uiDrawFill(p->Context, path, &brush);
uiDrawFreePath(path);
}
}
static int inPoint(double x, double y, double xtest, double ytest)
{
// TODO switch to using a matrix
x -= xoffLeft;
y -= yoffTop;
return (x >= xtest - pointRadius) &&
(x <= xtest + pointRadius) &&
(y >= ytest - pointRadius) &&
(y <= ytest + pointRadius);
}
static void handlerMouseEvent(uiAreaHandler *a, uiArea *area, uiAreaMouseEvent *e)
{
double graphWidth, graphHeight;
double xs[10], ys[10];
int i;
graphSize(e->AreaWidth, e->AreaHeight, &graphWidth, &graphHeight);
pointLocations(graphWidth, graphHeight, xs, ys);
for (i = 0; i < 10; i++)
if (inPoint(e->X, e->Y, xs[i], ys[i]))
break;
if (i == 10) // not in a point
i = -1;
currentPoint = i;
// TODO only redraw the relevant area
uiAreaQueueRedrawAll(histogram);
}
static void handlerMouseCrossed(uiAreaHandler *ah, uiArea *a, int left)
{
// do nothing
}
static void handlerDragBroken(uiAreaHandler *ah, uiArea *a)
{
// do nothing
}
static int handlerKeyEvent(uiAreaHandler *ah, uiArea *a, uiAreaKeyEvent *e)
{
// reject all keys
return 0;
}
static void onDatapointChanged(uiSpinbox *s, void *data)
{
uiAreaQueueRedrawAll(histogram);
}
static void onColorChanged(uiColorButton *b, void *data)
{
uiAreaQueueRedrawAll(histogram);
}
static int onClosing(uiWindow *w, void *data)
{
uiControlDestroy(uiControl(mainwin));
uiQuit();
return 0;
}
static int shouldQuit(void *data)
{
uiControlDestroy(uiControl(mainwin));
return 1;
}
int main(void)
{
uiInitOptions o;
const char *err;
uiBox *hbox, *vbox;
int i;
uiDrawBrush brush;
handler.Draw = handlerDraw;
handler.MouseEvent = handlerMouseEvent;
handler.MouseCrossed = handlerMouseCrossed;
handler.DragBroken = handlerDragBroken;
handler.KeyEvent = handlerKeyEvent;
memset(&o, 0, sizeof (uiInitOptions));
err = uiInit(&o);
if (err != NULL) {
fprintf(stderr, "error initializing ui: %s\n", err);
uiFreeInitError(err);
return 1;
}
uiOnShouldQuit(shouldQuit, NULL);
mainwin = uiNewWindow("libui Histogram Example", 640, 480, 1);
uiWindowSetMargined(mainwin, 1);
uiWindowOnClosing(mainwin, onClosing, NULL);
hbox = uiNewHorizontalBox();
uiBoxSetPadded(hbox, 1);
uiWindowSetChild(mainwin, uiControl(hbox));
vbox = uiNewVerticalBox();
uiBoxSetPadded(vbox, 1);
uiBoxAppend(hbox, uiControl(vbox), 0);
srand(time(NULL));
for (i = 0; i < 10; i++) {
datapoints[i] = uiNewSpinbox(0, 100);
uiSpinboxSetValue(datapoints[i], rand() % 101);
uiSpinboxOnChanged(datapoints[i], onDatapointChanged, NULL);
uiBoxAppend(vbox, uiControl(datapoints[i]), 0);
}
colorButton = uiNewColorButton();
// TODO inline these
setSolidBrush(&brush, colorDodgerBlue, 1.0);
uiColorButtonSetColor(colorButton,
brush.R,
brush.G,
brush.B,
brush.A);
uiColorButtonOnChanged(colorButton, onColorChanged, NULL);
uiBoxAppend(vbox, uiControl(colorButton), 0);
histogram = uiNewArea(&handler);
uiBoxAppend(hbox, uiControl(histogram), 1);
uiControlShow(uiControl(mainwin));
uiMain();
uiUninit();
return 0;
}