rollo-old.c - fp2-dev/platform/packages/apps/Launcher3 - Gitiles

 #pragma version(1)
 #pragma stateVertex(PV)
 #pragma stateFragment(PF)
 #pragma stateFragmentStore(PFS)

 // Scratch buffer layout
 #define SCRATCH_FADE 0
 #define SCRATCH_ZOOM 1
 #define SCRATCH_ROT 2

 //#define STATE_POS_X             0
 #define STATE_DONE              1
 //#define STATE_PRESSURE          2
 #define STATE_ZOOM              3
 //#define STATE_WARP              4
 #define STATE_ORIENTATION       5
 #define STATE_SELECTION         6
 #define STATE_FIRST_VISIBLE     7
 #define STATE_COUNT             8
 #define STATE_TOUCH             9


 float filter(float val, float target, float str)
 {
     float delta = (target - val);
     return val + delta * str;
 }

 int main(void* con, int ft, int launchID)
 {
     int rowCount;
     int row;
     int col;
     int imageID;
     int done = loadI32(0, STATE_DONE);
     int selectedID = loadI32(0, STATE_SELECTION);

     float f = loadF(2, 0);

     pfClearColor(0.0f, 0.0f, 0.0f, 0.0f);
     if (done) {
         if (f > 0.02f) {
             //f = f - 0.02f;
             //storeF(2, 0, f);
         }
     } else {
         if (f < 0.8f) {
             f = f + 0.02f;
             storeF(2, 0, f);
         }
     }

     float touchCut = 1.f;
     if (loadI32(0, STATE_TOUCH)) {
         touchCut = 4.f;
     }


     float targetZoom = ((float)loadI32(0, STATE_ZOOM)) / 1000.f;
     float zoom = filter(loadF(2, SCRATCH_ZOOM), targetZoom, 0.15 * touchCut);
     storeF(2, SCRATCH_ZOOM, zoom);

     float targetRot = loadI32(0, STATE_FIRST_VISIBLE) / 180.0f * 3.14f;
     targetRot = targetRot * 0.80f - .12f;
     float drawRot = filter(loadF(2, SCRATCH_ROT), targetRot, 0.1f * touchCut);
     storeF(2, SCRATCH_ROT, drawRot);

     float diam = 8.f;
     float scale = 1.0f / zoom;

     // Bug makes 1.0f alpha fail.
     color(1.0f, 1.0f, 1.0f, 0.99f);

     float rot = drawRot * scale;
     float rotStep = 16.0f / 180.0f * 3.14f * scale;
     rowCount = 4;
     int index = 0;
     int iconCount = loadI32(0, STATE_COUNT);
     while (iconCount) {
         float tmpSin = sinf(rot);
         float tmpCos = cosf(rot);
             //debugF("rot", rot);

         float tx1 = tmpSin * diam - (tmpCos * scale * 0.9f);
         float tx2 = tx1 + (tmpCos * scale * 1.8f);
         float tz1 = tmpCos * diam + (tmpSin * scale * 0.9f);
         float tz2 = tz1 - (tmpSin * scale * 1.8f);

         int y;
         for (y = rowCount -1; (y >= 0) && iconCount; y--) {
             float ty1 = ((y * 3.1f) - 5.f) * scale;
             float ty2 = ty1 + scale * 1.8f;
             bindTexture(NAMED_PF, 0, loadI32(1, index));
             drawQuad(tx1, ty1, tz1,
                      tx2, ty1, tz2,
                      tx2, ty2, tz2,
                      tx1, ty2, tz1);

             iconCount--;
             index++;
         }
         rot = rot + rotStep;
     }

     if ((zoom < 1.1f) && (zoom > 0.9f)) {
         bindProgramVertex(NAMED_PVOrtho);
         bindProgramFragment(NAMED_PFText);
         bindProgramFragmentStore(NAMED_PFSText);

         rot = drawRot * scale;
         index = 0;
         iconCount = loadI32(0, STATE_COUNT);
         while (iconCount) {
             int y;

             float tx = 240.f + floorf(sinf(rot) * 430.f) - 64.f + 16.f;

             float alpha = 2.4f - (fabsf(tx - 240.f + 48.f) / 76.f);
             if (alpha > 0.99f) {
                 alpha = 0.99f;
             }
             alpha = alpha * (1.f - (fabsf(zoom - 1.f) * 10.f));

             tx = tx + 0.25f;

             for (y = rowCount -1; (y >= 0) && iconCount; y--) {

                 if (alpha > 0) {
                     color(1.0f, 1.0f, 1.0f, alpha);

                     float ty = 654.f - y * 150.f;

                     ty = ty + 0.25f;

                     bindTexture(NAMED_PFText, 0, loadI32(3, index));
                     drawRect(tx, ty, tx + 128.f, ty + 64.f, 0.5f);
                 }
                 iconCount--;
                 index++;
             }
             rot = rot + rotStep;
         }


         bindProgramVertex(NAMED_PV);
         bindProgramFragment(NAMED_PF);
         bindProgramFragmentStore(NAMED_PFS);
     }

     // Draw the selected icon
     color(1.0f, 1.0f, 1.0f, 0.9f);
     rot = drawRot * scale;
     index = 0;
     iconCount = loadI32(0, STATE_COUNT);
     while (iconCount) {
         int y;
         for (y = rowCount -1; (y >= 0) && iconCount; y--) {
             if (index == selectedID) {

                 float tmpSin = sinf(rot) * scale;
                 float tmpCos = cosf(rot) * scale;
                 float tx1 = tmpSin * diam * 0.9f - tmpCos * 2.f;
                 float tx2 = tx1 + (tmpCos * 4.f);
                 float tz1 = tmpCos * diam * 0.9f + tmpSin * 2.f;
                 float tz2 = tz1 - (tmpSin * 4.f);

                 float ty1 = ((y * 3.1f) - 4.5f) * scale;
                 float ty2 = ty1 + scale * 4.f;
                 bindTexture(NAMED_PF, 0, loadI32(1, index));
                 drawQuad(tx1, ty1, tz1,
                          tx2, ty1, tz2,
                          tx2, ty2, tz2,
                          tx1, ty2, tz1);
             }
             iconCount--;
             index++;
         }
         rot = rot + rotStep;
     }

     return 1;
 }
	#pragma version(1)
	#pragma stateVertex(PV)
	#pragma stateFragment(PF)
	#pragma stateFragmentStore(PFS)

	// Scratch buffer layout
	#define SCRATCH_FADE 0
	#define SCRATCH_ZOOM 1
	#define SCRATCH_ROT 2

	//#define STATE_POS_X 0
	#define STATE_DONE 1
	//#define STATE_PRESSURE 2
	#define STATE_ZOOM 3
	//#define STATE_WARP 4
	#define STATE_ORIENTATION 5
	#define STATE_SELECTION 6
	#define STATE_FIRST_VISIBLE 7
	#define STATE_COUNT 8
	#define STATE_TOUCH 9


	float filter(float val, float target, float str)
	{
	float delta = (target - val);
	return val + delta * str;
	}

	int main(void* con, int ft, int launchID)
	{
	int rowCount;
	int row;
	int col;
	int imageID;
	int done = loadI32(0, STATE_DONE);
	int selectedID = loadI32(0, STATE_SELECTION);

	float f = loadF(2, 0);

	pfClearColor(0.0f, 0.0f, 0.0f, 0.0f);
	if (done) {
	if (f > 0.02f) {
	//f = f - 0.02f;
	//storeF(2, 0, f);
	}
	} else {
	if (f < 0.8f) {
	f = f + 0.02f;
	storeF(2, 0, f);
	}
	}

	float touchCut = 1.f;
	if (loadI32(0, STATE_TOUCH)) {
	touchCut = 4.f;
	}


	float targetZoom = ((float)loadI32(0, STATE_ZOOM)) / 1000.f;
	float zoom = filter(loadF(2, SCRATCH_ZOOM), targetZoom, 0.15 * touchCut);
	storeF(2, SCRATCH_ZOOM, zoom);

	float targetRot = loadI32(0, STATE_FIRST_VISIBLE) / 180.0f * 3.14f;
	targetRot = targetRot * 0.80f - .12f;
	float drawRot = filter(loadF(2, SCRATCH_ROT), targetRot, 0.1f * touchCut);
	storeF(2, SCRATCH_ROT, drawRot);

	float diam = 8.f;
	float scale = 1.0f / zoom;

	// Bug makes 1.0f alpha fail.
	color(1.0f, 1.0f, 1.0f, 0.99f);

	float rot = drawRot * scale;
	float rotStep = 16.0f / 180.0f * 3.14f * scale;
	rowCount = 4;
	int index = 0;
	int iconCount = loadI32(0, STATE_COUNT);
	while (iconCount) {
	float tmpSin = sinf(rot);
	float tmpCos = cosf(rot);
	//debugF("rot", rot);

	float tx1 = tmpSin * diam - (tmpCos * scale * 0.9f);
	float tx2 = tx1 + (tmpCos * scale * 1.8f);
	float tz1 = tmpCos * diam + (tmpSin * scale * 0.9f);
	float tz2 = tz1 - (tmpSin * scale * 1.8f);

	int y;
	for (y = rowCount -1; (y >= 0) && iconCount; y--) {
	float ty1 = ((y * 3.1f) - 5.f) * scale;
	float ty2 = ty1 + scale * 1.8f;
	bindTexture(NAMED_PF, 0, loadI32(1, index));
	drawQuad(tx1, ty1, tz1,
	tx2, ty1, tz2,
	tx2, ty2, tz2,
	tx1, ty2, tz1);

	iconCount--;
	index++;
	}
	rot = rot + rotStep;
	}

	if ((zoom < 1.1f) && (zoom > 0.9f)) {
	bindProgramVertex(NAMED_PVOrtho);
	bindProgramFragment(NAMED_PFText);
	bindProgramFragmentStore(NAMED_PFSText);

	rot = drawRot * scale;
	index = 0;
	iconCount = loadI32(0, STATE_COUNT);
	while (iconCount) {
	int y;

	float tx = 240.f + floorf(sinf(rot) * 430.f) - 64.f + 16.f;

	float alpha = 2.4f - (fabsf(tx - 240.f + 48.f) / 76.f);
	if (alpha > 0.99f) {
	alpha = 0.99f;
	}
	alpha = alpha * (1.f - (fabsf(zoom - 1.f) * 10.f));

	tx = tx + 0.25f;

	for (y = rowCount -1; (y >= 0) && iconCount; y--) {

	if (alpha > 0) {
	color(1.0f, 1.0f, 1.0f, alpha);

	float ty = 654.f - y * 150.f;

	ty = ty + 0.25f;

	bindTexture(NAMED_PFText, 0, loadI32(3, index));
	drawRect(tx, ty, tx + 128.f, ty + 64.f, 0.5f);
	}
	iconCount--;
	index++;
	}
	rot = rot + rotStep;
	}


	bindProgramVertex(NAMED_PV);
	bindProgramFragment(NAMED_PF);
	bindProgramFragmentStore(NAMED_PFS);
	}

	// Draw the selected icon
	color(1.0f, 1.0f, 1.0f, 0.9f);
	rot = drawRot * scale;
	index = 0;
	iconCount = loadI32(0, STATE_COUNT);
	while (iconCount) {
	int y;
	for (y = rowCount -1; (y >= 0) && iconCount; y--) {
	if (index == selectedID) {

	float tmpSin = sinf(rot) * scale;
	float tmpCos = cosf(rot) * scale;
	float tx1 = tmpSin * diam * 0.9f - tmpCos * 2.f;
	float tx2 = tx1 + (tmpCos * 4.f);
	float tz1 = tmpCos * diam * 0.9f + tmpSin * 2.f;
	float tz2 = tz1 - (tmpSin * 4.f);

	float ty1 = ((y * 3.1f) - 4.5f) * scale;
	float ty2 = ty1 + scale * 4.f;
	bindTexture(NAMED_PF, 0, loadI32(1, index));
	drawQuad(tx1, ty1, tz1,
	tx2, ty1, tz2,
	tx2, ty2, tz2,
	tx1, ty2, tz1);
	}
	iconCount--;
	index++;
	}
	rot = rot + rotStep;
	}

	return 1;
	}