Takashi Asano
/
linearMirrorMotion1017
Important changes to repositories hosted on mbed.com
Mbed hosted mercurial repositories are deprecated and are due to be permanently deleted in July 2026.
To keep a copy of this software download the repository Zip archive or clone locally using Mercurial.
It is also possible to export all your personal repositories from the account settings page.
Fork of
linearMirrorMotion1017
by 
Hiromasa Oku
renderclass.cpp
- Committer:
- hiromasaoku
- Date:
- 2013-05-31
- Revision:
- 20:8475768fc2f7
- Parent:
- 19:8e9fe7d25b9c
- Child:
- 21:4095a071724d
- Child:
- 29:aa8fe9fccec8
File content as of revision 20:8475768fc2f7:
#include "renderclass.h"
#include "mbed.h"
#include "laserProjectorHardware.h"
#include <vector>
Ticker translationTimer;
//for translating -----------------------------------------------------------------
inline void render::shearing(point2dl& dataBefore)
{
dataBefore.x = dataBefore.x - speed * cos(angle+PI/2)*speedTimer.read_us()/400;
dataBefore.y = dataBefore.y - speed * sin(angle+PI/2)*speedTimer.read_us()/400;
}
inline void render::rotation(point2dl& dataBefore)
{
int x=dataBefore.x;
dataBefore.x = 1800 * cos(angle) + sin(angle)*x - cos(angle)*dataBefore.y;
dataBefore.y = 1800 * sin(angle) - cos(angle)*x - sin(angle)*dataBefore.y;
}
//----------------------------------------------------------------------------------
void render::startRender()
{
speedTimer.start();
renderTimer.attach_us(this, &render::draw,RENDER_INTERVAL);
pc.printf("render started!\n");
}
void render::stopRender()
{
renderTimer.detach();
translated.clear();
currentLetters=0;
currentPoints=0;
}
void render::setRender(vector<letter> *p)
{
ptext = p;
pc.printf("Size of text to render: %d/n", (*ptext).size() );
//for(int i=0; i!=(*ptext).size(); i++){
for(std::vector<letter>::iterator itr = (*ptext).begin(); itr != (*ptext).end(); ++itr) {
translated.push_back(*itr);
} //copy the liblary to the buffer.
currentLetters=0;
currentPoints=0;
shearingSwitch = 1;
}
void render::updateSpeed(float gspeed, float gangle){
speed = gspeed;
angle = gangle;
//speed=sqrt(vx*vx+vy*vy);//*factorSpeed;
//angle=atan2(vy,vx);
}
int stopcounter=100;
void render::draw()
{
if(translated.size()>0){
if(stopcounter == 99) speedTimer.reset();
if(stopcounter==100){
point2dl drawPoint=translated[currentLetters].letpoints[currentPoints];
transform(drawPoint); // transform it with the current speed and angle
//IO.setRedPower(drawPoint.laserSwitch);
IO.writeOutXY(CENTER_AD_MIRROR_X + (int)drawPoint.x , CENTER_AD_MIRROR_Y + (int)drawPoint.y);
if(currentPoints>0) IO.setRedPower(translated[currentLetters].letpoints[currentPoints-1].laserSwitch);
else IO.setRedPower(0);
currentPoints++;
}
else stopcounter++;
if(currentPoints >= translated[currentLetters].letpoints.size() ) {
if(stopcounter == 100) stopcounter = 0;
else if(stopcounter == 0){
renderTimer.detach();
}
//wait_us(RENDER_INTERVAL);
else if(stopcounter == 1){
IO.setRedPower(0);
//wait_us(RENDER_INTERVAL);
currentLetters++;
currentPoints = 0;
renderTimer.attach_us(this, &render::draw,RENDER_INTERVAL);
speedTimer.reset();
}
}
if(currentLetters >= translated.size()) {
currentLetters = 0;
currentPoints = 0;
renderTimer.detach();
//wait_us(RENDER_INTERVAL);
IO.setRedPower(0);
//wait_us(RENDER_INTERVAL*200);
renderTimer.attach_us(this, &render::draw,RENDER_INTERVAL);
speedTimer.reset();
stopcounter = -200;
}
}
}
void render::transform(point2dl& mypoint)
{
rotation(mypoint);
if(shearingSwitch == 1) shearing(mypoint);
}