/*
* display.cpp
*
* Created on: 30 Nov 2020
* Author: mike
*/
#include "main.h"
#include "display.h"
#include <cstring>
#include "libOLED/stm32_halDisplay.H"
#include "libOLED/fontclass.H"
#include "libOLED/displayDial.H"
#include "libOLED/displayXY.H"
#include "libPlx/displayInfo.H"
#include "libOLED/ap_math.h"
#include "libSmallPrintf/small_printf.h"
#include "splash.H"
namespace
{
int const WIDTH = 128;
int const HEIGHT = 64;
int const DISPLAY_RAMWIDTH = 132;
int x = 500;
int y = 20;
int ph= 0;
}
uint8_t displayBuffer[2][dataSize(WIDTH, HEIGHT)];
stm32_halDisplay_t displays[MAX_DISPLAYS] =
{
stm32_halDisplay_t(WIDTH, HEIGHT, DISPLAY_RAMWIDTH, displayBuffer[0],
&hspi1,
SPI_CD_GPIO_Port,
SPI_CD_Pin,
SPI_RESET_GPIO_Port,
SPI_RESET_Pin,
SPI_NSS1_GPIO_Port,
SPI_NSS1_Pin),
};
// display from 0 to 1000 rpm , and 0 to 100kPa
displayXY_t dispXY(displays[0], 500, 6000, 100, 0);
// set up sine tables
ap_math m;
#if defined __cplusplus
extern "C"
{
#endif
void
cc_init()
{
for (auto i = 0; i < MAX_DISPLAYS; i++)
{
display_t &display = displays[i];
if (i == 0)
display.reset();
display.init();
display.clearDisplay(BLACK);
display.display();
displaySplash(display);
display.gotoxy(8, 32);
display.printString(large_font, i == 0 ? "1" : "2", 1, BLACK);
display.display();
}
}
int
cc_display(int dialIndex)
{
if (dialIndex < 0 && dialIndex > MAX_DISPLAYS)
return -1;
stm32_halDisplay_t &display = displays[dialIndex];
char buff[10];
display.clearDisplay(BLACK);
dispXY.drawAxes();
x += 100;
y = m.ap_sin((ph+x)/2 )/10 + 50;
if (x > 6000)
{
ph += 200;
if(ph> 360*m.SINE_SCALING)
ph-=360*m.SINE_SCALING;
x = 500;
}
display.dim(false);
char buff1[10];
char buff2[10];
small_sprintf(buff1, "x=%4d", x);
small_sprintf(buff2, "y=%4d", y);
dispXY.plotPoint(x, y, "frogs", buff1, buff2);
display.dim(true);
display.display();
return 0;
}
#if defined __cplusplus
}
#endif