ref: 4fcc002b4ae32417b80298462c9b674acd3e32aa
dir: /src/ft2_about.c/
#include <stdio.h> // sprintf() #include <math.h> #include "ft2_header.h" #include "ft2_gui.h" #include "ft2_bmp.h" #include "ft2_video.h" #include "ft2_structs.h" #include "ft2_pattern_ed.h" // exitPatternEditorExtended() #define NUM_STARS 2000 #define ABOUT_SCREEN_X 3 #define ABOUT_SCREEN_Y 3 #define ABOUT_SCREEN_W 626 #define ABOUT_SCREEN_H 167 #define ABOUT_LOGO_W 449 #define ABOUT_LOGO_H 110 typedef struct { float x, y, z; } vector_t; typedef struct { vector_t x, y, z; } matrix_t; static char *customText1 = "Clone by Olav \"8bitbubsy\" S\025rensen"; static char *customText2 = "https://16-bits.org"; static char customText3[256]; static int16_t customText1Y, customText2Y, customText3Y, customText1X, customText2X, customText3X; static uint32_t randSeed; static vector_t starPoints[NUM_STARS], rotation; static matrix_t matrix; void seedAboutScreenRandom(uint32_t newseed) { randSeed = newseed; } static int32_t random32(void) { randSeed *= 134775813; randSeed += 1; return randSeed; } static void rotateMatrix(void) { #define MY_2PI_FLOAT 6.2831853071796f const float x2pi = rotation.x * MY_2PI_FLOAT; const float sa = sinf(x2pi); const float ca = cosf(x2pi); const float y2pi = rotation.y * MY_2PI_FLOAT; const float sb = sinf(y2pi); const float cb = cosf(y2pi); const float z2pi = rotation.z * MY_2PI_FLOAT; const float sc = sinf(z2pi); const float cc = cosf(z2pi); // x matrix.x.x = (ca * cc) + (sc * sa * sb); matrix.y.x = sa * cb; matrix.z.x = (cc * sa * sb) - (ca * sc); // y matrix.x.y = (sc * ca * sb) - (sa * cc); matrix.y.y = ca * cb; matrix.z.y = (sa * sc) + (cc * ca * sb); // z matrix.x.z = cb * sc; matrix.y.z = -sb; matrix.z.z = cb * cc; } void initAboutScreen(void) { vector_t *s = starPoints; for (int32_t i = 0; i < NUM_STARS; i++, s++) { s->x = (float)(random32() * (1.0 / (UINT32_MAX+1.0))); s->y = (float)(random32() * (1.0 / (UINT32_MAX+1.0))); s->z = (float)(random32() * (1.0 / (UINT32_MAX+1.0))); } } static void blendPixel(int32_t x, int32_t y, uint32_t r, uint32_t g, uint32_t b, uint16_t alpha) { uint32_t *p = &video.frameBuffer[(y * SCREEN_W) + x]; const uint32_t srcPixel = *p; const uint32_t srcR = RGB32_R(srcPixel); const uint32_t srcG = RGB32_G(srcPixel); const uint32_t srcB = RGB32_B(srcPixel); r = ((srcR * (alpha ^ 65535)) + (r * alpha)) >> 16; g = ((srcG * (alpha ^ 65535)) + (g * alpha)) >> 16; b = ((srcB * (alpha ^ 65535)) + (b * alpha)) >> 16; *p = RGB32(r, g, b); } static void starfield(void) { vector_t *star = starPoints; for (int16_t i = 0; i < NUM_STARS; i++, star++) { star->z += 0.0001f; if (star->z >= 0.5f) star->z -= 1.0f; const float z = (matrix.x.z * star->x) + (matrix.y.z * star->y) + (matrix.z.z * star->z) + 0.5f; if (z <= 0.0f) continue; float y = (((matrix.x.y * star->x) + (matrix.y.y * star->y) + (matrix.z.y * star->z)) / z) * 400.0f; const int32_t outY = (ABOUT_SCREEN_Y+(ABOUT_SCREEN_H/2)) + (int32_t)y; if (outY < ABOUT_SCREEN_Y || outY >= ABOUT_SCREEN_Y+ABOUT_SCREEN_H) continue; float x = (((matrix.x.x * star->x) + (matrix.y.x * star->y) + (matrix.z.x * star->z)) / z) * 400.0f; const int32_t outX = (ABOUT_SCREEN_X+(ABOUT_SCREEN_W/2)) + (int32_t)x; if (outX < ABOUT_SCREEN_X || outX >= ABOUT_SCREEN_X+ABOUT_SCREEN_W) continue; int32_t d = (int32_t)(z * 256.0f); if (d > 255) d = 255; d ^= 255; // add a tint of blue to the star pixel int32_t r = d - 79; if (r < 0) r = 0; int32_t g = d - 38; if (g < 0) g = 0; int32_t b = d + 64; if (b > 255) b = 255; // blend sides of star const uint16_t sidesAlpha = 13000; if (outX-1 >= ABOUT_SCREEN_X) blendPixel(outX-1, outY, r, g, b, sidesAlpha); if (outX+1 < ABOUT_SCREEN_X+ABOUT_SCREEN_W) blendPixel(outX+1, outY, r, g, b, sidesAlpha); if (outY-1 >= ABOUT_SCREEN_Y) blendPixel(outX, outY-1, r, g, b, sidesAlpha); if (outY+1 < ABOUT_SCREEN_Y+ABOUT_SCREEN_H) blendPixel(outX, outY+1, r, g, b, sidesAlpha); // plot main star pixel blendPixel(outX, outY, r, g, b, 60000); } } void renderAboutScreenFrame(void) { // remember the good old days when you couldn't do this per frame? clearRect(ABOUT_SCREEN_X, ABOUT_SCREEN_Y, ABOUT_SCREEN_W, ABOUT_SCREEN_H); // 3D starfield rotateMatrix(); rotation.x -= 0.00006f; rotation.z += 0.00003f; starfield(); // logo + text blit32(91, 31, bmp.ft2AboutLogo, ABOUT_LOGO_W, ABOUT_LOGO_H); textOut(customText1X, customText1Y, PAL_FORGRND, customText1); textOut(customText2X, customText2Y, PAL_FORGRND, customText2); textOut(customText3X, customText3Y, PAL_FORGRND, customText3); showPushButton(PB_EXIT_ABOUT); } void showAboutScreen(void) // called once when about screen is opened { if (ui.extended) exitPatternEditorExtended(); hideTopScreen(); drawFramework(0, 0, 632, 173, FRAMEWORK_TYPE1); drawFramework(2, 2, 628, 169, FRAMEWORK_TYPE2); showPushButton(PB_EXIT_ABOUT); sprintf(customText3, "v%s (%s)", PROG_VER_STR, __DATE__); customText1X = (SCREEN_W - textWidth(customText1)) / 2; customText2X = (SCREEN_W-8) - textWidth(customText2); customText3X = (SCREEN_W-8) - textWidth(customText3); customText1Y = 157; customText2Y = 157-12; customText3Y = 157; ui.aboutScreenShown = true; } void hideAboutScreen(void) { hidePushButton(PB_EXIT_ABOUT); ui.aboutScreenShown = false; } void exitAboutScreen(void) { hideAboutScreen(); showTopScreen(true); }