コード例 #1
0
ファイル: fmath.c プロジェクト: Marshall-LM/PICpilot
float fTan(float val){
    return fSin(val)/fCos(val);
}
コード例 #2
0
ファイル: jj1guardians.cpp プロジェクト: Chemrat/openjazz
/**
 * Episode 1 guardian iteration.
 *
 * @param ticks Time
 *
 * @return Remaining event
 */
JJ1Event* MedGuardian::step(unsigned int ticks) {

	fixed sin = fSin(ticks / 2);
	fixed cos = fCos(ticks / 2);

	set = prepareStep(ticks);

	if (!set) return remove(false);


	if (level->getEventHits(gridX, gridY) >= set->strength / 2)
 		stage = 1;
	if (level->getEventHits(gridX, gridY) >= set->strength)
		stage = 2;

	// Stage 0: Move in an eight shape and fire the occasional shot

	if (stage == 0) {

		if (direction == 1) {

			// Lower right part of the eight
			setAnimType(E_LEFTANIM);

			dx = TTOF(gridX) + (sin * 96) - x + ITOF(96);
			dy = TTOF(gridY) - (cos * 64) - y;

			if (cos > 0) direction = 2;

		}

		if (direction == 2) {

			// Upper left part of the eight
			setAnimType(E_LEFTANIM);

			dx = TTOF(gridX) - (sin * 96) - x - ITOF(96);
			dy = TTOF(gridY) - (cos * 64) - y;

			if (cos < 0) direction = 3;

		}

		if (direction == 3) {

			// Lower left part of the eight
			setAnimType(E_RIGHTANIM);

			dx = TTOF(gridX) - (sin * 96) - x - ITOF(96);
			dy = TTOF(gridY) - (cos * 64) - y;

			if (cos > 0) direction = 4;

		}

		if (direction == 4) {

			// Upper right part of the eight
			setAnimType(E_RIGHTANIM);

			dx = TTOF(gridX) + (sin * 96) - x + ITOF(96);
			dy = TTOF(gridY) - (cos * 64) - y;

			if (cos < 0) direction = 1;

		}

		// Decide if there should be a shot
		if ((ticks % (set->bulletPeriod * 25) >
				(unsigned int)(set->bulletPeriod * 25) - 300)) {

			level->setEventTime(gridX, gridY, ticks + 300);
			shoot = true;

		}

		// Shoot if there is a shot
		if (level->getEventTime(gridX, gridY) &&
				(ticks > level->getEventTime(gridX, gridY)) &&
				shoot) {

			if (set->bullet < 32)
				level->createBullet(NULL,
					gridX,
					gridY,
					x + anim->getAccessoryShootX(),
					y + anim->getAccessoryShootY(),
					set->bullet,
					(animType != E_LEFTANIM),
					ticks);

			shoot = false;

		}

	}

	// Stage 1: Hop back and forth destroying the bottom row of tiles

	if (stage == 1) {

		fixed startPos = TTOF(gridY) + ITOF(40);

		if (direction < 5) {

			// Move up or down towards the starting position for hopping
			direction = (y > startPos) ? 5 : 6;

		}

		// Move up to the correct height
		if (direction == 5) {

			if (y > startPos) {

				dx = 0;
				dy = ITOF(-2);

			}
			else direction = 7;

		}

		// Move down to the correct height
		if (direction == 6) {

			if (y < startPos) {

				dx = 0;
				dy = ITOF(2);

			} else direction = 7;

		}

		// Cosinus should be near zero before we start hopping.
		if (direction == 7) {

			dx = 0;
			dy = 0;

			if (cos > -100 && cos < 100) direction = 8;

		}

		// Start hopping
		if (direction == 8) {

			if (level->checkMaskUp(x, y) ||
					level->checkMaskUp(x + width, y))
				setAnimType((animType == E_LEFTANIM) ? E_RIGHTANIM : E_LEFTANIM);

			dy = startPos - abs(cos * 96) - y;
			dx = abs(cos * 6);

			if (animType == E_LEFTANIM)
				dx *= -1;

			if (cos < 0 &&
					level->checkMaskDown(x + ITOF(anim->getWidth() / 2), y + TTOF(1)))
				direction = 9;

		}

		// Destroy the block underneath
		if (direction == 9) {

			// Shake a bit
			dx = (FTOI(x) % 2) ? ITOF(1) : ITOF(-1);
			dy = 0;

			// Remove the tile
			if (cos > 0 && cos < 100) {

				level->setTile(
						FTOT(x + ITOF((anim->getWidth() / 2))),
						FTOT(y) + 1,
						set->magnitude);

				direction = 8;

			}

		}

	}

	// Stage 2: End of behavior

	if (stage == 2) {

		dx = 0;
		dy = ITOF(4);

	}

	x += dx;
	y += dy;
	dx = dx << 6;
	dy = dy << 6;

	return this;

}