pimoroni-pico/examples/pico_explorer/demo.cpp

228 lines
6.3 KiB
C++

#include <string.h>
#include <math.h>
#include <vector>
#include <cstdlib>
#include "pico_explorer.hpp"
#include "msa301.hpp"
using namespace pimoroni;
extern unsigned char _binary_fox_tga_start[];
uint16_t buffer[PicoExplorer::WIDTH * PicoExplorer::HEIGHT];
PicoExplorer pico_explorer(buffer);
MSA301 msa301;
uint8_t arrow[] = {
0b00010000,
0b00110000,
0b01110000,
0b11111111,
0b11111111,
0b01110000,
0b00110000,
0b00010000
};
uint8_t tick[] = {
0b00000000,
0b00000010,
0b00000111,
0b01001110,
0b11111100,
0b00111000,
0b00010000,
0b00000000,
};
/*
void sprite(uint8_t *p, int x, int y, bool flip, uint16_t c) {
for(int ay = 0; ay < 8; ay++) {
uint8_t sl = p[ay];
for(int ax = 0; ax < 8; ax++) {
if(flip) {
if((0b10000000 >> ax) & sl) {
pixel(ax + x, ay + y, c);
}
}else{
if((0b1 << ax) & sl) {
pixel(ax + x, ay + y, c);
}
}
}
}
}*/
int main() {
pico_explorer.init();
msa301.init();
bool a_pressed = false;
bool b_pressed = false;
bool x_pressed = false;
bool y_pressed = false;
struct pt {
float x;
float y;
uint8_t r;
float dx;
float dy;
uint16_t pen;
};
std::vector<pt> shapes;
for(int i = 0; i < 100; i++) {
pt shape;
shape.x = rand() % 240;
shape.y = rand() % 135;
shape.r = (rand() % 10) + 3;
shape.dx = float(rand() % 255) / 128.0f;
shape.dy = float(rand() % 255) / 128.0f;
shape.pen = pico_explorer.create_pen(rand() % 255, rand() % 255, rand() % 255);
shapes.push_back(shape);
}
pico_explorer.set_audio_pin(pico_explorer.GP0);
uint32_t i = 0;
while(true) {
pico_explorer.set_pen(120, 40, 60);
pico_explorer.clear();
for(auto &shape : shapes) {
shape.x += shape.dx;
shape.y += shape.dy;
if(shape.x < 0) shape.dx *= -1;
if(shape.x >= pico_explorer.bounds.w) shape.dx *= -1;
if(shape.y < 0) shape.dy *= -1;
if(shape.y >= pico_explorer.bounds.h) shape.dy *= -1;
pico_explorer.set_pen(shape.pen);
pico_explorer.circle(Point(shape.x, shape.y), shape.r);
}
float rv = pico_explorer.get_adc(pico_explorer.ADC0);
pico_explorer.set_pen(255, 255, 255);
pico_explorer.circle(Point(rv * 140 + 50, 110), 20);
pico_explorer.set_pen(rv * 255, 0, 0);
pico_explorer.circle(Point(rv * 140 + 50, 110), 15);
float gv = pico_explorer.get_adc(pico_explorer.ADC1);
pico_explorer.set_pen(255, 255, 255);
pico_explorer.circle(Point(gv * 140 + 50, 160), 20);
pico_explorer.set_pen(0, gv * 255, 0);
pico_explorer.circle(Point(gv * 140 + 50, 160), 15);
float bv = pico_explorer.get_adc(pico_explorer.ADC2);
pico_explorer.set_pen(255, 255, 255);
pico_explorer.circle(Point(bv * 140 + 50, 210), 20);
pico_explorer.set_pen(0, 0, bv * 255);
pico_explorer.circle(Point(bv * 140 + 50, 210), 15);
pico_explorer.set_motor(pico_explorer.MOTOR1, pico_explorer.FORWARD, bv);
pico_explorer.set_motor(pico_explorer.MOTOR2, pico_explorer.FORWARD, rv);
pico_explorer.set_tone(440, 0.5);
if(pico_explorer.is_pressed(pico_explorer.A)) {
pico_explorer.set_pen(255, 255, 255);
pico_explorer.character('A', Point(120, 180), 5);
}
if(pico_explorer.is_pressed(pico_explorer.B)) {
pico_explorer.set_pen(255, 255, 255);
pico_explorer.character('B', Point(120, 180), 5);
}
if(pico_explorer.is_pressed(pico_explorer.X)) {
pico_explorer.set_pen(255, 255, 255);
pico_explorer.character('X', Point(120, 180), 5);
}
if(pico_explorer.is_pressed(pico_explorer.Y)) {
pico_explorer.set_pen(255, 255, 255);
pico_explorer.character('Y', Point(120, 180), 5);
}
float tyoff = cos(i / 20.0f) * 50.0f - 50.0f;
Rect text_box(10, 10, 150, 150);
pico_explorer.set_pen(55, 65, 75);
pico_explorer.rectangle(text_box);
text_box.deflate(10);
pico_explorer.set_clip(text_box);
pico_explorer.set_pen(255, 255, 255);
pico_explorer.text("This is a test of some text data that should wrap nicely onto multiple lines which is dead useful like.", Point(text_box.x, text_box.y + tyoff), 100);
float xoff = sin(i / 20.0f) * 50.0f;
xoff += 120 - (81 / 2);
float yoff = cos(i / 20.0f) * 50.0f;
yoff += 120 - (68 / 2);
for(int y = 0; y < 68; y++) {
uint16_t *dest = pico_explorer.frame_buffer + (y * 240);
uint8_t *src = _binary_fox_tga_start + 18 + (y * 81 * 3);
for(int x = 0; x < 81; x++) {
uint8_t b = *src++;
uint8_t g = *src++;
uint8_t r = *src++;
pico_explorer.set_pen(r, g, b);
pico_explorer.pixel(Point(x + xoff, 68 - y + yoff));
}
}
pico_explorer.remove_clip();
pico_explorer.set_pen(255, 255, 255);
pico_explorer.text("x: " + std::to_string(int(msa301.get_axis(msa301.X, 16) * 100)), Point(10, 190), 100);
pico_explorer.text("y: " + std::to_string(int(msa301.get_axis(msa301.Y, 16) * 100)), Point(10, 205), 100);
pico_explorer.text("z: " + std::to_string(int(msa301.get_axis(msa301.Z, 16) * 100)), Point(10, 220), 100);
uint16_t xpos = (msa301.get_axis(msa301.X, 16) * 120) + 120;
uint16_t ypos = (msa301.get_axis(msa301.Z, 16) * 120) + 120;
pico_explorer.set_pen(255, 255, 255);
pico_explorer.circle(Point(xpos, ypos), 20);
pico_explorer.set_pen(255, 0, 255);
pico_explorer.circle(Point(xpos, ypos), 15);
/*
if(pico_display.is_pressed(pico_display.A)) {
pico_display.rectangle(0, 0, 18, 18);
//sprite(tick, 5, 5, true, green);
}else{
//sprite(arrow, 10 + bounce, 10, true, white);
}
if(pico_display.is_pressed(pico_display.B)) {
pico_display.rectangle(0, 49, 18, 18);
//sprite(tick, 5, 54, true, green);
}else{
//sprite(arrow, 10 - bounce, 50, true, white);
}
if(pico_display.is_pressed(pico_display.X)) {
pico_display.rectangle(102, 0, 18, 18);
//sprite(tick, 107, 5, true, green);
}else{
//sprite(arrow, 102 - bounce, 10, false, white);
}
if(pico_display.is_pressed(pico_display.Y)) {
pico_display.rectangle(102, 49, 18, 18);
//sprite(tick, 107, 54, true, green);
}else{
//sprite(arrow, 102 + bounce, 50, false, white);
}
*/
// update screen
pico_explorer.update();
i++;
}
return 0;
}