res/raw/rollo2.c - platform/packages/apps/Launcher2 - Git at Google

 #pragma version(1)
 #pragma stateVertex(PV)
 #pragma stateFragment(PFTexLinear)
 #pragma stateStore(PSIcons)

 #define PI 3.14159f


 // Attraction to center values from page edge to page center.
 float g_AttractionTable[9];
 float g_FrictionTable[9];
 float g_PhysicsTableSize;

 float g_PosPage;
 float g_PosVelocity;
 float g_LastPositionX;
 int g_LastTouchDown;
 float g_DT;
 int g_LastTime;
 int g_PageCount;
 float g_Zoom;
 float g_OldPosPage;
 float g_OldPosVelocity;
 float g_OldZoom;

 // Drawing constants, should be parameters ======
 #define VIEW_ANGLE 1.28700222f

 int g_DrawLastFrame;
 int lastFrame(int draw) {
     // We draw one extra frame to work around the last frame post bug.
     // We also need to track if we drew the last frame to deal with large DT
     // in the physics.
     int ret = g_DrawLastFrame | draw;
     g_DrawLastFrame = draw;
     return ret;  // should return draw instead.
 }

 void updateReadback() {
     if ((g_OldPosPage != g_PosPage) ||
         (g_OldPosVelocity != g_PosVelocity) ||
         (g_OldZoom != g_Zoom)) {

         g_OldPosPage = g_PosPage;
         g_OldPosVelocity = g_PosVelocity;
         g_OldZoom = g_Zoom;

         int i[3];
         i[0] = g_PosPage * (1 << 16);
         i[1] = g_PosVelocity * (1 << 16);
         i[2] = g_OldZoom * (1 << 16);
         sendToClient(&i[0], 1, 12, 1);
     }
 }

 void init() {
     g_AttractionTable[0] = 6.5f;
     g_AttractionTable[1] = 6.5f;
     g_AttractionTable[2] = 7.0f;
     g_AttractionTable[3] = 6.0f;
     g_AttractionTable[4] = -6.0f;
     g_AttractionTable[5] = -7.0f;
     g_AttractionTable[6] = -6.5f;
     g_AttractionTable[7] = -6.5f;
     g_AttractionTable[8] = -6.5f;  // dup 7 to avoid a clamp later
     g_FrictionTable[0] = 3.5f;
     g_FrictionTable[1] = 3.6f;
     g_FrictionTable[2] = 4.0f;
     g_FrictionTable[3] = 5.0f;
     g_FrictionTable[4] = 5.0f;
     g_FrictionTable[5] = 4.0f;
     g_FrictionTable[6] = 3.6f;
     g_FrictionTable[7] = 3.5f;
     g_FrictionTable[8] = 3.5f;  // dup 7 to avoid a clamp later
     g_PhysicsTableSize = 7;

     g_PosVelocity = 0;
     g_PosPage = 0;
     g_LastTouchDown = 0;
     g_LastPositionX = 0;
     g_Zoom = 0;
 }

 void resetHWWar() {
 }

 void move() {
     if (g_LastTouchDown) {
         float dx = -(state->newPositionX - g_LastPositionX);
         g_PosVelocity = 0;
         g_PosPage += dx;

         float pmin = -0.25f;
         float pmax = (g_PageCount - 1) + 0.25f;
         g_PosPage = clampf(g_PosPage, pmin, pmax);
     }
     g_LastTouchDown = state->newTouchDown;
     g_LastPositionX = state->newPositionX;
     //debugF("Move P", g_PosPage);
 }

 void fling() {
     g_LastTouchDown = 0;
     g_PosVelocity = -state->flingVelocityX;
     float av = fabsf(g_PosVelocity);
     float minVel = 3.5f;

     minVel *= 1.f - (fabsf(fracf(g_PosPage + 0.5f) - 0.5f) * 0.45f);

     if (av < minVel && av > 0.2f) {
         if (g_PosVelocity > 0) {
             g_PosVelocity = minVel;
         } else {
             g_PosVelocity = -minVel;
         }
     }

     if (g_PosPage <= 0) {
         g_PosVelocity = maxf(0, g_PosVelocity);
     }
     if (g_PosPage > (g_PageCount - 1)) {
         g_PosVelocity = minf(0, g_PosVelocity);
     }
     //debugF("fling v", g_PosVelocity);
 }

 void touchUp() {
     g_LastTouchDown = 0;
 }

 int
 count_pages(int iconCount)
 {
     int iconsPerPage = COLUMNS_PER_PAGE * ROWS_PER_PAGE;
     int pages = iconCount / iconsPerPage;
     if (pages*iconsPerPage != iconCount) {
         pages++;
     }
     return pages;
 }

 float
 modf(float x, float y)
 {
     return x-(y*floorf(x/y));
 }

 void updatePos() {
     if (g_LastTouchDown) {
         return;
     }

     float tablePosNorm = fracf(g_PosPage + 0.5f);
     float tablePosF = tablePosNorm * g_PhysicsTableSize;
     int tablePosI = tablePosF;
     float tablePosFrac = tablePosF - tablePosI;
     float accel = lerpf(g_AttractionTable[tablePosI],
                         g_AttractionTable[tablePosI + 1],
                         tablePosFrac) * g_DT;
     float friction = lerpf(g_FrictionTable[tablePosI],
                            g_FrictionTable[tablePosI + 1],
                            tablePosFrac) * g_DT;
     //debugF("  accel", accel);
     //debugF("  friction", friction);

     // If our velocity is low OR acceleration is opposing it, apply it.
     if (fabsf(g_PosVelocity) < 1.0f || (g_PosVelocity * accel) < 0) {
         g_PosVelocity += accel;
     }

     if ((friction > fabsf(g_PosVelocity)) && (friction > fabsf(accel))) {
         // Special get back to center and overcome friction physics.
         float t = tablePosNorm - 0.5f;
         if (fabsf(t) < (friction * g_DT)) {
             // really close, just snap
             g_PosPage = roundf(g_PosPage);
             g_PosVelocity = 0;
         } else {
             if (t > 0) {
                 g_PosVelocity = -friction;
             } else {
                 g_PosVelocity = friction;
             }
         }
     } else {
         // Normal physics
         if (g_PosVelocity > 0) {
             g_PosVelocity -= friction;
             g_PosVelocity = maxf(g_PosVelocity, 0);
         } else {
             g_PosVelocity += friction;
             g_PosVelocity = minf(g_PosVelocity, 0);
         }
     }
     g_PosPage += g_PosVelocity * g_DT;

     // Check for out of boundry conditions.
     if (g_PosPage < 0 && g_PosVelocity < 0) {
         float damp = 1.0 + (g_PosPage * 4);
         damp = clampf(damp, 0.f, 0.9f);
         g_PosVelocity *= damp;
     }
     if (g_PosPage > (g_PageCount-1) && g_PosVelocity > 0) {
         float damp = 1.0 - ((g_PosPage - g_PageCount + 1) * 4);
         damp = clampf(damp, 0.f, 0.9f);
         g_PosVelocity *= damp;
     }
 }

 int positionStrip(float row, float column)
 {
     float mat1[16];

     float y =  1.2f - row * 0.6f;

     float scale = 256.f / getWidth();
     float xscale = scale * 4.55 / 1.8f / 2;

     matrixLoadTranslate(mat1, 0.f, y, 0.f);
     matrixScale(mat1, 1.f, scale, 1.f);
     vpLoadModelMatrix(mat1);

     float soff = -21.8f - (column * 1.25f);
     matrixLoadScale(mat1, xscale, 1.f, 1.f);
     matrixTranslate(mat1, soff, 0, 0);
     vpLoadTextureMatrix(mat1);

     return - soff * 10.f;
 }

 void drawIcon(float row, float column, int iconNum)
 {
     int offset = positionStrip(row, column);
     bindTexture(NAMED_PFTexLinear, 0, loadI32(ALLOC_ICON_IDS, iconNum));

     if (offset < 0) {
         offset = 0;
     }
     if (offset >= (450 - 20)) {
         offset = (449 - 20);
     }
     drawSimpleMeshRange(NAMED_SMMesh, offset * 6, 20 * 6);
 }

 void
 draw_home_button()
 {
     color(1.0f, 1.0f, 1.0f, 1.0f);
     bindTexture(NAMED_PFTexLinear, 0, state->homeButtonId);

     float scale = 2.0f / SCREEN_WIDTH_PX;

     float x = 0.0f;

     float y = -(SCREEN_HEIGHT_PX / (float)SCREEN_WIDTH_PX);
     y += g_Zoom * (scale * params->homeButtonTextureHeight / 2);

     float z = 0.0f;
     drawSprite(x, y, z, params->homeButtonTextureWidth, params->homeButtonTextureHeight);
 }

 int
 main(int launchID)
 {
     // Compute dt in seconds.
     int newTime = uptimeMillis();
     g_DT = (newTime - g_LastTime) / 1000.f;
     g_LastTime = newTime;

     if (!g_DrawLastFrame) {
         // If we stopped rendering we cannot use DT.
         // assume 30fps in this case.
         g_DT = 0.033f;
     }
     if (g_DT > 0.2f) {
         // physics may break if DT is large.
         g_DT = 0.2f;
     }

     debugF("zoom", g_Zoom);
     if (g_Zoom != state->zoomTarget) {
         float dz = (state->zoomTarget - g_Zoom) * g_DT * 5;
         if (dz && (fabsf(dz) < 0.03f)) {
             if (dz > 0) {
                 dz = 0.03f;
             } else {
                 dz = -0.03f;
             }
         }
         if (fabsf(g_Zoom - state->zoomTarget) < fabsf(dz)) {
             g_Zoom = state->zoomTarget;
         } else {
             g_Zoom += dz;
         }
         updateReadback();
     }

     // Set clear value to dim the background based on the zoom position.
     if ((g_Zoom < 0.001f) && (state->zoomTarget < 0.001f)) {
         pfClearColor(0.0f, 0.0f, 0.0f, 0.0f);
         // When we're zoomed out and not tracking motion events, reset the pos to 0.
         if (!g_LastTouchDown) {
             g_PosPage = 0;
         }
         return lastFrame(0);
     } else if (g_Zoom < 0.85f) {
         pfClearColor(0.0f, 0.0f, 0.0f, g_Zoom);
     } else {
         pfClearColor(0.0f, 0.0f, 0.0f, g_Zoom);
     }

     // icons & labels
     int iconCount = state->iconCount;
     g_PageCount = count_pages(iconCount);

     updatePos(0.1f);
     updateReadback();

     debugF("    draw g_PosPage", g_PosPage);

     // Draw the icons ========================================

     // Bug makes 1.0f alpha fail.
     //color(0.2f, 0.2f, 0.2f, 0.99f);
     //bindProgramFragment(NAMED_PFColor);
     //positionStrip(0, 0);
     //drawSimpleMesh(NAMED_SMMesh);

     bindProgramFragment(NAMED_PFTexLinear);


     int lastIcon = iconCount-1;

     int page = g_PosPage;
     float currentPagePosition = g_PosPage - page;

     int iconsPerPage = COLUMNS_PER_PAGE * ROWS_PER_PAGE;
     float scale = (1 / g_Zoom);

     float pageAngle = VIEW_ANGLE * 1.2f;

     float zoomOffset = 40 * (1 - g_Zoom);
     int drawPage;
     //lastIcon = 1;
     for (drawPage = 0; drawPage < g_PageCount; drawPage++) {
         int r, c;
         for (r=0; r < 4; r++) {
             for (c=0; c < 4; c++) {
                 int iconNum = drawPage * 16 + c + r * 4;
                 if (iconNum <= lastIcon) {
                     float p = (((float)drawPage) - g_PosPage) * 5.f;
                     p += c - 1.5f;
                     p += zoomOffset;
                     if (fabsf(p) > 2) {
                         drawIcon(r, p, iconNum);
                     }
                 }
             }
         }
     }

     for (drawPage = 0; drawPage < g_PageCount; drawPage++) {
         int r, c;
         for (r=0; r < 4; r++) {
             for (c=0; c < 4; c++) {
                 int iconNum = drawPage * 16 + c + r * 4;
                 if (iconNum <= lastIcon) {
                     float p = (((float)drawPage) - g_PosPage) * 5.f;
                     p += c - 1.5f;
                     p += zoomOffset;
                     float x = (p * 1.13f + 1.88f) * getWidth() * 0.2f;
                     float y = 570 - r * 147;

                     if (fabsf(p) <= 2) {
                         drawIcon(r, p, iconNum);
                     }
                     if (fabsf(p) <= 2.5) {
                         float a = (1.2f - maxf(scale, 1.0f)) * 5;
                         color(1.0f, 1.0f, 1.0f, a);
                         bindTexture(NAMED_PFTexLinear, 0, loadI32(ALLOC_LABEL_IDS, iconNum));
                         drawSpriteScreenspace(x, y, 0,
                                    params->bubbleBitmapWidth, params->bubbleBitmapHeight);
                     }
                 }
             }
         }

     }

     {
         float mat1[16];
         matrixLoadIdentity(mat1);
         vpLoadModelMatrix(mat1);
         vpLoadTextureMatrix(mat1);
     }

     // Draw the home button ========================================
     //draw_home_button();

     // Bug workaround where the last frame is not always displayed
     // So we keep rendering until the bug is fixed.
     return 1; //(g_PosVelocity != 0) || fracf(g_PosPage) || g_Zoom != g_ZoomTarget);
 }
	#pragma version(1)
	#pragma stateVertex(PV)
	#pragma stateFragment(PFTexLinear)
	#pragma stateStore(PSIcons)

	#define PI 3.14159f


	// Attraction to center values from page edge to page center.
	float g_AttractionTable[9];
	float g_FrictionTable[9];
	float g_PhysicsTableSize;

	float g_PosPage;
	float g_PosVelocity;
	float g_LastPositionX;
	int g_LastTouchDown;
	float g_DT;
	int g_LastTime;
	int g_PageCount;
	float g_Zoom;
	float g_OldPosPage;
	float g_OldPosVelocity;
	float g_OldZoom;

	// Drawing constants, should be parameters ======
	#define VIEW_ANGLE 1.28700222f

	int g_DrawLastFrame;
	int lastFrame(int draw) {
	// We draw one extra frame to work around the last frame post bug.
	// We also need to track if we drew the last frame to deal with large DT
	// in the physics.
	int ret = g_DrawLastFrame \| draw;
	g_DrawLastFrame = draw;
	return ret; // should return draw instead.
	}

	void updateReadback() {
	if ((g_OldPosPage != g_PosPage) \|\|
	(g_OldPosVelocity != g_PosVelocity) \|\|
	(g_OldZoom != g_Zoom)) {

	g_OldPosPage = g_PosPage;
	g_OldPosVelocity = g_PosVelocity;
	g_OldZoom = g_Zoom;

	int i[3];
	i[0] = g_PosPage * (1 << 16);
	i[1] = g_PosVelocity * (1 << 16);
	i[2] = g_OldZoom * (1 << 16);
	sendToClient(&i[0], 1, 12, 1);
	}
	}

	void init() {
	g_AttractionTable[0] = 6.5f;
	g_AttractionTable[1] = 6.5f;
	g_AttractionTable[2] = 7.0f;
	g_AttractionTable[3] = 6.0f;
	g_AttractionTable[4] = -6.0f;
	g_AttractionTable[5] = -7.0f;
	g_AttractionTable[6] = -6.5f;
	g_AttractionTable[7] = -6.5f;
	g_AttractionTable[8] = -6.5f; // dup 7 to avoid a clamp later
	g_FrictionTable[0] = 3.5f;
	g_FrictionTable[1] = 3.6f;
	g_FrictionTable[2] = 4.0f;
	g_FrictionTable[3] = 5.0f;
	g_FrictionTable[4] = 5.0f;
	g_FrictionTable[5] = 4.0f;
	g_FrictionTable[6] = 3.6f;
	g_FrictionTable[7] = 3.5f;
	g_FrictionTable[8] = 3.5f; // dup 7 to avoid a clamp later
	g_PhysicsTableSize = 7;

	g_PosVelocity = 0;
	g_PosPage = 0;
	g_LastTouchDown = 0;
	g_LastPositionX = 0;
	g_Zoom = 0;
	}

	void resetHWWar() {
	}

	void move() {
	if (g_LastTouchDown) {
	float dx = -(state->newPositionX - g_LastPositionX);
	g_PosVelocity = 0;
	g_PosPage += dx;

	float pmin = -0.25f;
	float pmax = (g_PageCount - 1) + 0.25f;
	g_PosPage = clampf(g_PosPage, pmin, pmax);
	}
	g_LastTouchDown = state->newTouchDown;
	g_LastPositionX = state->newPositionX;
	//debugF("Move P", g_PosPage);
	}

	void fling() {
	g_LastTouchDown = 0;
	g_PosVelocity = -state->flingVelocityX;
	float av = fabsf(g_PosVelocity);
	float minVel = 3.5f;

	minVel = 1.f - (fabsf(fracf(g_PosPage + 0.5f) - 0.5f) 0.45f);

	if (av < minVel && av > 0.2f) {
	if (g_PosVelocity > 0) {
	g_PosVelocity = minVel;
	} else {
	g_PosVelocity = -minVel;
	}
	}

	if (g_PosPage <= 0) {
	g_PosVelocity = maxf(0, g_PosVelocity);
	}
	if (g_PosPage > (g_PageCount - 1)) {
	g_PosVelocity = minf(0, g_PosVelocity);
	}
	//debugF("fling v", g_PosVelocity);
	}

	void touchUp() {
	g_LastTouchDown = 0;
	}

	int
	count_pages(int iconCount)
	{
	int iconsPerPage = COLUMNS_PER_PAGE * ROWS_PER_PAGE;
	int pages = iconCount / iconsPerPage;
	if (pages*iconsPerPage != iconCount) {
	pages++;
	}
	return pages;
	}

	float
	modf(float x, float y)
	{
	return x-(y*floorf(x/y));
	}

	void updatePos() {
	if (g_LastTouchDown) {
	return;
	}

	float tablePosNorm = fracf(g_PosPage + 0.5f);
	float tablePosF = tablePosNorm * g_PhysicsTableSize;
	int tablePosI = tablePosF;
	float tablePosFrac = tablePosF - tablePosI;
	float accel = lerpf(g_AttractionTable[tablePosI],
	g_AttractionTable[tablePosI + 1],
	tablePosFrac) * g_DT;
	float friction = lerpf(g_FrictionTable[tablePosI],
	g_FrictionTable[tablePosI + 1],
	tablePosFrac) * g_DT;
	//debugF(" accel", accel);
	//debugF(" friction", friction);

	// If our velocity is low OR acceleration is opposing it, apply it.
	if (fabsf(g_PosVelocity) < 1.0f \|\| (g_PosVelocity * accel) < 0) {
	g_PosVelocity += accel;
	}

	if ((friction > fabsf(g_PosVelocity)) && (friction > fabsf(accel))) {
	// Special get back to center and overcome friction physics.
	float t = tablePosNorm - 0.5f;
	if (fabsf(t) < (friction * g_DT)) {
	// really close, just snap
	g_PosPage = roundf(g_PosPage);
	g_PosVelocity = 0;
	} else {
	if (t > 0) {
	g_PosVelocity = -friction;
	} else {
	g_PosVelocity = friction;
	}
	}
	} else {
	// Normal physics
	if (g_PosVelocity > 0) {
	g_PosVelocity -= friction;
	g_PosVelocity = maxf(g_PosVelocity, 0);
	} else {
	g_PosVelocity += friction;
	g_PosVelocity = minf(g_PosVelocity, 0);
	}
	}
	g_PosPage += g_PosVelocity * g_DT;

	// Check for out of boundry conditions.
	if (g_PosPage < 0 && g_PosVelocity < 0) {
	float damp = 1.0 + (g_PosPage * 4);
	damp = clampf(damp, 0.f, 0.9f);
	g_PosVelocity *= damp;
	}
	if (g_PosPage > (g_PageCount-1) && g_PosVelocity > 0) {
	float damp = 1.0 - ((g_PosPage - g_PageCount + 1) * 4);
	damp = clampf(damp, 0.f, 0.9f);
	g_PosVelocity *= damp;
	}
	}

	int positionStrip(float row, float column)
	{
	float mat1[16];

	float y = 1.2f - row * 0.6f;

	float scale = 256.f / getWidth();
	float xscale = scale * 4.55 / 1.8f / 2;

	matrixLoadTranslate(mat1, 0.f, y, 0.f);
	matrixScale(mat1, 1.f, scale, 1.f);
	vpLoadModelMatrix(mat1);

	float soff = -21.8f - (column * 1.25f);
	matrixLoadScale(mat1, xscale, 1.f, 1.f);
	matrixTranslate(mat1, soff, 0, 0);
	vpLoadTextureMatrix(mat1);

	return - soff * 10.f;
	}

	void drawIcon(float row, float column, int iconNum)
	{
	int offset = positionStrip(row, column);
	bindTexture(NAMED_PFTexLinear, 0, loadI32(ALLOC_ICON_IDS, iconNum));

	if (offset < 0) {
	offset = 0;
	}
	if (offset >= (450 - 20)) {
	offset = (449 - 20);
	}
	drawSimpleMeshRange(NAMED_SMMesh, offset * 6, 20 * 6);
	}

	void
	draw_home_button()
	{
	color(1.0f, 1.0f, 1.0f, 1.0f);
	bindTexture(NAMED_PFTexLinear, 0, state->homeButtonId);

	float scale = 2.0f / SCREEN_WIDTH_PX;

	float x = 0.0f;

	float y = -(SCREEN_HEIGHT_PX / (float)SCREEN_WIDTH_PX);
	y += g_Zoom * (scale * params->homeButtonTextureHeight / 2);

	float z = 0.0f;
	drawSprite(x, y, z, params->homeButtonTextureWidth, params->homeButtonTextureHeight);
	}

	int
	main(int launchID)
	{
	// Compute dt in seconds.
	int newTime = uptimeMillis();
	g_DT = (newTime - g_LastTime) / 1000.f;
	g_LastTime = newTime;

	if (!g_DrawLastFrame) {
	// If we stopped rendering we cannot use DT.
	// assume 30fps in this case.
	g_DT = 0.033f;
	}
	if (g_DT > 0.2f) {
	// physics may break if DT is large.
	g_DT = 0.2f;
	}

	debugF("zoom", g_Zoom);
	if (g_Zoom != state->zoomTarget) {
	float dz = (state->zoomTarget - g_Zoom) * g_DT * 5;
	if (dz && (fabsf(dz) < 0.03f)) {
	if (dz > 0) {
	dz = 0.03f;
	} else {
	dz = -0.03f;
	}
	}
	if (fabsf(g_Zoom - state->zoomTarget) < fabsf(dz)) {
	g_Zoom = state->zoomTarget;
	} else {
	g_Zoom += dz;
	}
	updateReadback();
	}

	// Set clear value to dim the background based on the zoom position.
	if ((g_Zoom < 0.001f) && (state->zoomTarget < 0.001f)) {
	pfClearColor(0.0f, 0.0f, 0.0f, 0.0f);
	// When we're zoomed out and not tracking motion events, reset the pos to 0.
	if (!g_LastTouchDown) {
	g_PosPage = 0;
	}
	return lastFrame(0);
	} else if (g_Zoom < 0.85f) {
	pfClearColor(0.0f, 0.0f, 0.0f, g_Zoom);
	} else {
	pfClearColor(0.0f, 0.0f, 0.0f, g_Zoom);
	}

	// icons & labels
	int iconCount = state->iconCount;
	g_PageCount = count_pages(iconCount);

	updatePos(0.1f);
	updateReadback();

	debugF(" draw g_PosPage", g_PosPage);

	// Draw the icons ========================================

	// Bug makes 1.0f alpha fail.
	//color(0.2f, 0.2f, 0.2f, 0.99f);
	//bindProgramFragment(NAMED_PFColor);
	//positionStrip(0, 0);
	//drawSimpleMesh(NAMED_SMMesh);

	bindProgramFragment(NAMED_PFTexLinear);


	int lastIcon = iconCount-1;

	int page = g_PosPage;
	float currentPagePosition = g_PosPage - page;

	int iconsPerPage = COLUMNS_PER_PAGE * ROWS_PER_PAGE;
	float scale = (1 / g_Zoom);

	float pageAngle = VIEW_ANGLE * 1.2f;

	float zoomOffset = 40 * (1 - g_Zoom);
	int drawPage;
	//lastIcon = 1;
	for (drawPage = 0; drawPage < g_PageCount; drawPage++) {
	int r, c;
	for (r=0; r < 4; r++) {
	for (c=0; c < 4; c++) {
	int iconNum = drawPage * 16 + c + r * 4;
	if (iconNum <= lastIcon) {
	float p = (((float)drawPage) - g_PosPage) * 5.f;
	p += c - 1.5f;
	p += zoomOffset;
	if (fabsf(p) > 2) {
	drawIcon(r, p, iconNum);
	}
	}
	}
	}
	}

	for (drawPage = 0; drawPage < g_PageCount; drawPage++) {
	int r, c;
	for (r=0; r < 4; r++) {
	for (c=0; c < 4; c++) {
	int iconNum = drawPage * 16 + c + r * 4;
	if (iconNum <= lastIcon) {
	float p = (((float)drawPage) - g_PosPage) * 5.f;
	p += c - 1.5f;
	p += zoomOffset;
	float x = (p * 1.13f + 1.88f) * getWidth() * 0.2f;
	float y = 570 - r * 147;

	if (fabsf(p) <= 2) {
	drawIcon(r, p, iconNum);
	}
	if (fabsf(p) <= 2.5) {
	float a = (1.2f - maxf(scale, 1.0f)) * 5;
	color(1.0f, 1.0f, 1.0f, a);
	bindTexture(NAMED_PFTexLinear, 0, loadI32(ALLOC_LABEL_IDS, iconNum));
	drawSpriteScreenspace(x, y, 0,
	params->bubbleBitmapWidth, params->bubbleBitmapHeight);
	}
	}
	}
	}

	}

	{
	float mat1[16];
	matrixLoadIdentity(mat1);
	vpLoadModelMatrix(mat1);
	vpLoadTextureMatrix(mat1);
	}

	// Draw the home button ========================================
	//draw_home_button();

	// Bug workaround where the last frame is not always displayed
	// So we keep rendering until the bug is fixed.
	return 1; //(g_PosVelocity != 0) \|\| fracf(g_PosPage) \|\| g_Zoom != g_ZoomTarget);
	}