ref: e537ab6fa5e1a6e121f0ea19da0bf9479f8022f1
dir: /pt_pal_editor/src/gui.c/
// for finding memory leaks in debug mode with Visual Studio #if defined _DEBUG && defined _MSC_VER #include <crtdbg.h> #endif #include <stdio.h> #include <string.h> #include <stdlib.h> #include <SDL2/SDL.h> #include "tinyfiledialogs/tinyfiledialogs.h" #include "config.h" #include "palette.h" #include "gui.h" // number of frames #define BUTTON_DELAY 15 #define BUTTON_REPEAT_DELAY 2 static uint8_t rainbowHeldDown, rainbowDownHeldDown, rainbowUpHeldDown, sliderHeldDown; static uint8_t spreadFlag, spreadFrom; static uint16_t oldColorVal; static uint32_t buttonCounter, randSeed; extern const uint32_t arrowDown[42]; extern const uint32_t arrowUp[42]; extern const uint32_t editText[42880]; extern const uint8_t visualsData[31680]; extern const uint8_t spectrumData[11000]; extern const uint8_t samplerData[42880]; extern const uint8_t songNameData[7040]; extern const uint8_t patternEditorData[42880]; extern const uint8_t diskOpData[31680]; extern const uint8_t fontData[5168]; // globalized bool topScreen = false, bottomScreen = false, analyzerShown = false; uint8_t currColor = 0, rainbowPos = 0, colorsMax = 48; uint16_t *theRightColors = vuColors; // Delphi/Pascal LCG Random() static inline uint32_t myRandom(uint32_t limit) { randSeed = randSeed * 134775813 + 1; return (((uint32_t)(randSeed) * (uint64_t)(limit)) >> 32ULL); } static void blit(const uint8_t *srcPtr, uint32_t xPos, uint32_t yPos, uint32_t w, uint32_t h) { uint8_t pal; uint32_t pixel, x, y, *dstPtr; dstPtr = &frameBuffer[(yPos * SCREEN_W) + xPos]; for (y = 0; y < h; ++y) { for (x = 0; x < w; ++x) { pal = srcPtr[x]; if (pal == 8) pixel = 0x373737; // sample middle line else if (pal == 9) pixel = 0x666666; // sample mark #1 else if (pal == 10) pixel = 0xCCCCCC; // sample mark #2 else pixel = RGB12_to_RGB24(palette[pal]); dstPtr[x] = pixel; } srcPtr += w; dstPtr += SCREEN_W; } } static void blit32(uint32_t xPos, uint32_t yPos, uint32_t w, uint32_t h, const uint32_t *srcPtr) { uint32_t *dstPtr, y; dstPtr = &frameBuffer[(yPos * SCREEN_W) + xPos]; for (y = 0; y < h; ++y) { memcpy(dstPtr, srcPtr, w * sizeof (int32_t)); srcPtr += w; dstPtr += SCREEN_W; } } void charOut(uint32_t xPos, uint32_t yPos, uint32_t color, char chr) { const uint8_t *srcPtr; uint32_t x, y, *dstPtr; srcPtr = &fontData[(chr * (8 * 5)) + 1]; dstPtr = &frameBuffer[(yPos * SCREEN_W) + xPos]; for (y = 0; y < 5; ++y) { for (x = 0; x < 6; ++x) { if (srcPtr[x]) dstPtr[x] = color; } srcPtr += 8; dstPtr += SCREEN_W; } } void textOut(uint32_t xPos, uint32_t yPos, uint32_t color, const char *text) { uint32_t x; x = xPos; while (*text != '\0') { charOut(x, yPos, color, *text++); x += 7; } } void textOutShadow(uint32_t xPos, uint32_t yPos, uint32_t fgColor, uint32_t bgColor, const char *text) { uint32_t x; x = xPos; while (*text != '\0') { charOut(x+1, yPos+1, bgColor, *text); charOut(x+0, yPos+0, fgColor, *text); text++; x += 7; } } void hLine(uint32_t x, uint32_t y, uint32_t w, uint32_t color) { uint32_t *dstPtr, i; #ifdef _DEBUG if ((x >= SCREEN_W) || (y >= SCREEN_H) || ((x + w) > SCREEN_W)) __debugbreak(); #endif dstPtr = &frameBuffer[(y * SCREEN_W) + x]; for (i = 0; i < w; ++i) dstPtr[i] = color; } void vLine(uint32_t x, uint32_t y, uint32_t h, uint32_t color) { uint32_t *dstPtr,i; #ifdef _DEBUG if ((y >= SCREEN_W) || (x >= SCREEN_W) || ((y + h) > SCREEN_H)) __debugbreak(); #endif dstPtr = &frameBuffer[(y * SCREEN_W) + x]; for (i = 0; i < h; ++i) { *dstPtr = color; dstPtr += SCREEN_W; } } static void drawSpectrumAnalyzer(uint32_t xPos, uint32_t yPos) { uint8_t drawY, h, i; const uint32_t *srcPtr; uint32_t *dstPtr, x, y, drawX; randSeed = 8675309; drawX = xPos + 129; for (i = 0; i < 23; ++i) { h = (uint8_t)(myRandom(35 + 1)); drawY = 35 - h; srcPtr = &spectrumAnalyzerBMP[h]; dstPtr = &frameBuffer[((yPos+drawY+59) * SCREEN_W) + drawX]; for (y = 0; y <= h; ++y) { for (x = 0; x < 6; ++x) dstPtr[x] = *srcPtr; dstPtr += SCREEN_W; srcPtr--; } drawX += 8; } } static void drawVUMeters(uint32_t xPos, uint32_t yPos) { uint8_t drawY, h, i; const uint32_t *srcPtr; uint32_t *dstPtr, x, y, drawX; randSeed = 81549300; drawX = xPos + 55; for (i = 0; i < 4; ++i) { h = (uint8_t)(myRandom(48 + 1)); drawY = 48 - h; srcPtr = &vuMeterBMP[((48 - 1) * 10) - (drawY * 10)]; dstPtr = &frameBuffer[((yPos+drawY+140) * SCREEN_W) + drawX]; for (y = 0; y < h; ++y) { for (x = 0; x < 10; ++x) dstPtr[x]= srcPtr[x]; dstPtr += SCREEN_W; srcPtr -= 10; } drawX += 72; } } static void drawPatternCursor(uint32_t xPos, uint32_t yPos) { int32_t x, y; const uint32_t *srcPtr; uint32_t pixel, *dstPtr; srcPtr = patternCursorBMP; dstPtr = &frameBuffer[((yPos+188) * SCREEN_W) + (xPos+30)]; for (y = 0; y < 14; ++y) { for (x = 0; x < 11; ++x) { pixel = srcPtr[x]; if (pixel != RGB24_COLORKEY) dstPtr[x] = pixel; } srcPtr += 11; dstPtr += SCREEN_W; } } void drawTracker(void) { const uint32_t x = TRACKER_X; const uint32_t y = TRACKER_Y; if (topScreen == 0) blit(visualsData, x, y, 320, 99); else blit(diskOpData, x, y, 320, 99); if ((topScreen == 0) && analyzerShown) { blit(spectrumData, x+120, y+44, 200, 55); drawSpectrumAnalyzer(x, y); } blit(songNameData, x, y+99, 320, 22); if (bottomScreen == 0) blit(patternEditorData, x, y+121, 320, 134); else blit(samplerData, x, y+121, 320, 134); if (bottomScreen == 0) { drawVUMeters(x, y); drawPatternCursor(x, y); } } void handleSlidersHeldDown(void) { int8_t value; int32_t mx; if (sliderHeldDown == 0) return; // no slider held down if (sliderHeldDown <= 3) { // palette RGB sliders mx = input.mouse.x - (COLORPICKER1_X + 26); if (mx < 0) mx = 0; value = (int8_t)(mx / 3); if (value > 15) value = 15; oldColorVal = palette[currColor]; palette[currColor] &= ~(15 << (4 * (3 - sliderHeldDown))); palette[currColor] |= (value << (4 * (3 - sliderHeldDown))); if (palette[currColor] != oldColorVal) { configIsSaved = 0; if (currColor == 5) updatePatternCursorBMP(); drawColorPicker1(); drawTracker(); redrawScreen = 1; } } else if (sliderHeldDown <= 6) { // visualizer RGB sliders mx = input.mouse.x - (COLORPICKER2_X + 26); if (mx < 0) mx = 0; value = (int8_t)(mx / 3); if (value > 15) value = 15; oldColorVal = theRightColors[rainbowPos]; theRightColors[rainbowPos] &= ~(15 << (4 * (6 - sliderHeldDown))); theRightColors[rainbowPos] |= (value << (4 * (6 - sliderHeldDown))); if (theRightColors[rainbowPos] != oldColorVal) { configIsSaved = 0; if (theRightColors == vuColors) updateVuMeterBMP(); else updateSpectrumAnalyzerBMP(); drawColorPicker2(); drawTracker(); redrawScreen = 1; } } } void handleRainbowHeldDown(void) { uint8_t oldOffset; int32_t my; if (rainbowHeldDown == 0) return; my = input.mouse.y - (COLORPICKER2_Y+3); if (my < 0) my = 0; else if (my > 47) my = 47; if ((theRightColors == analyzerColors) && (my > 35)) my = 35; oldOffset = rainbowPos; rainbowPos = (uint8_t)(my); if (rainbowPos != oldOffset) { setUndo2Color(rainbowPos); drawColorPicker2(); redrawScreen = 1; } } static void rainbowUp(void) { uint8_t i; uint16_t tmp; tmp = *theRightColors; for (i = 0; i < (colorsMax - 1); ++i) theRightColors[i] = theRightColors[i + 1]; theRightColors[colorsMax - 1] = tmp; if (theRightColors == vuColors) updateVuMeterBMP(); else updateSpectrumAnalyzerBMP(); drawColorPicker2(); drawTracker(); redrawScreen = 1; } static void rainbowDown(void) { uint16_t tmp; uint32_t i; tmp = theRightColors[colorsMax - 1]; for (i = (colorsMax - 1); i >= 1; --i) theRightColors[i] = theRightColors[i - 1]; theRightColors[0] = tmp; if (theRightColors == vuColors) updateVuMeterBMP(); else updateSpectrumAnalyzerBMP(); drawColorPicker2(); drawTracker(); redrawScreen = 1; } static void rainbowSpread(void) { spreadFlag = 1; spreadFrom = rainbowPos; } #ifndef __APPLE__ static void colorPicker1(void) { uint16_t color; color = colorPicker(palette[currColor]); if (color != 0xFFFF) { palette[currColor] = color & 0xFFF; if (currColor == 5) updatePatternCursorBMP(); drawColorPicker1(); drawTracker(); redrawScreen = 1; configIsSaved = 0; } } static void colorPicker2(void) { uint16_t color; color = colorPicker(theRightColors[rainbowPos]); if (color != 0xFFFF) { theRightColors[rainbowPos] = color &= 0xFFF; if (theRightColors == vuColors) updateVuMeterBMP(); else updateSpectrumAnalyzerBMP(); drawColorPicker2(); drawTracker(); redrawScreen = 1; configIsSaved = 0; } } #endif int8_t handleColorPicker1(int32_t mx, int32_t my) { uint8_t newColor; // color picker #1 buttons if ((mx >= COLORPICKER1_X) && (mx < (COLORPICKER1_X+108)) && (my >= (COLORPICKER1_Y+33)) && (my < (COLORPICKER1_Y+44))) { if (mx >= (COLORPICKER1_X+79)) // "DEF" { configIsSaved = 0; setDefaultPalette(); updatePatternCursorBMP(); drawTracker(); drawColorPicker1(); redrawScreen = 1; return (1); } else if (mx >= (COLORPICKER1_X+33)) // "CANCEL" { configIsSaved = 0; cancel1Color(); updatePatternCursorBMP(); drawTracker(); drawColorPicker1(); redrawScreen = 1; return (1); } else // "UNDO" { configIsSaved = 0; undo1Color(); updatePatternCursorBMP(); drawTracker(); drawColorPicker1(); redrawScreen = 1; return (1); } } // color picker #1 sliders if ((mx >= (COLORPICKER1_X+0)) && (mx < (COLORPICKER1_X+79))) { if ((my >= (COLORPICKER1_Y+0)) && (my < (COLORPICKER1_Y+11))) { sliderHeldDown = 1; // #1 R return (1); } else if ((my >= (COLORPICKER1_Y+11)) && (my < (COLORPICKER1_Y+22))) { sliderHeldDown = 2; // #1 G return (1); } else if ((my >= (COLORPICKER1_Y+22)) && (my < (COLORPICKER1_Y+33))) { sliderHeldDown = 3; // #1 B return (1); } } // color picker #1 colors if ((mx >= (COLORPICKER1_X+82)) && ((my >= (COLORPICKER1_Y+5))) && ((my < (COLORPICKER1_Y+28)))) { if (mx < (COLORPICKER1_X+92)) { // left colors newColor = (uint8_t)((my - (COLORPICKER1_Y+5)) / 6); if (currColor != newColor) { currColor = newColor; setUndo1Color(currColor); drawColorPicker1(); redrawScreen = 1; } return (1); } else if (mx >= (COLORPICKER1_X+95) && (mx < (COLORPICKER1_X+105))) { // right colors newColor = (uint8_t)(4 + ((my - (COLORPICKER1_Y+5)) / 6)); if (currColor != newColor) { currColor = newColor; setUndo1Color(currColor); drawColorPicker1(); redrawScreen = 1; } } } #ifndef __APPLE__ // "PICK" if ((mx >= COLORPICKER1_X) && (mx < (COLORPICKER1_X+33)) && (my >= (COLORPICKER1_Y+44)) && (my < (COLORPICKER1_Y+55))) colorPicker1(); #endif return (0); } void handleRainbowUpDownButtons(void) { int32_t mx, my; if (buttonCounter++ >= BUTTON_DELAY) { if ((buttonCounter % BUTTON_REPEAT_DELAY) == 0) { mx = input.mouse.x; my = input.mouse.y; if (rainbowUpHeldDown) { if ((my >= (COLORPICKER2_Y+12)) && (my < (COLORPICKER2_Y+22)) && (mx >= (COLORPICKER2_X+0)) && (mx < (COLORPICKER2_X+16))) rainbowUp(); } else if (rainbowDownHeldDown) { if ((my >= (COLORPICKER2_Y+12)) && (my < (COLORPICKER2_Y+22)) && (mx >= (COLORPICKER2_X+16)) && (mx < (COLORPICKER2_X+32))) rainbowDown(); } } } } static int8_t handleColorPicker2(int32_t mx, int32_t my) { // color picker rainbow if ((mx >= (COLORPICKER2_X+79)) && (mx < (COLORPICKER2_X+108)) && (my >= COLORPICKER2_Y) && (my < COLORPICKER2_Y+55)) { rainbowHeldDown = 1; return (1); } spreadFlag = 0; // color picker #2 edit button if ((my >= COLORPICKER2_Y) && (my < (COLORPICKER2_Y+11)) && (mx >= COLORPICKER2_X) && (mx < (COLORPICKER2_X+79))) { if (theRightColors == vuColors) { theRightColors = analyzerColors; colorsMax = 36; // make sure pos doesn't overflow analyzer graphics lines if (rainbowPos > 35) rainbowPos = 0; } else { theRightColors = vuColors; colorsMax = 48; } drawColorPicker2(); redrawScreen = 1; return (1); } // color picker #2 top buttons if ((mx >= COLORPICKER2_X) && (mx < (COLORPICKER2_X+79)) && (my >= (COLORPICKER2_Y+12)) && (my < (COLORPICKER2_Y+22))) { if (mx >= (COLORPICKER2_X+32)) { // "SPREAD" rainbowSpread(); return (1); } else if (mx >= (COLORPICKER2_X+16)) { // "DOWN" configIsSaved = 0; rainbowDown(); rainbowDownHeldDown = 1; buttonCounter = 0; return (1); } else { // "UP" configIsSaved = 0; rainbowUp(); rainbowUpHeldDown = 1; buttonCounter = 0; return (1); } } // color picker #2 bottom buttons if ((mx >= COLORPICKER2_X) && (mx < (COLORPICKER2_X+108)) && (my >= (COLORPICKER2_Y+55)) && (my < (COLORPICKER2_Y+66))) { if (mx >= (COLORPICKER2_X+79)) { // "DEF" configIsSaved = 0; if (theRightColors == vuColors) { setDefaultVuColors(); updateVuMeterBMP(); } else { setDefaultAnalyzerColors(); updateSpectrumAnalyzerBMP(); } drawTracker(); drawColorPicker2(); redrawScreen = 1; return (1); } else if (mx >= (COLORPICKER2_X+33)) { // "CANCEL" configIsSaved = 0; cancel2Color(); if (theRightColors == vuColors) updateVuMeterBMP(); else updateSpectrumAnalyzerBMP(); drawTracker(); drawColorPicker2(); redrawScreen = 1; return (1); } else { // "UNDO" configIsSaved = 0; undo2Color(); if (theRightColors == vuColors) updateVuMeterBMP(); else updateSpectrumAnalyzerBMP(); drawTracker(); drawColorPicker2(); redrawScreen = 1; return (1); } } // color picker #2 sliders if ((mx >= (COLORPICKER2_X+0)) && (mx < (COLORPICKER2_X+79))) { if ((my >= (COLORPICKER2_Y+13)) && (my < (COLORPICKER2_Y+33))) { sliderHeldDown = 4; // #2 R return (1); } else if ((my >= (COLORPICKER2_Y+33)) && (my < (COLORPICKER2_Y+44))) { sliderHeldDown = 5; // #2 G return (1); } else if ((my >= (COLORPICKER2_Y+44)) && (my < (COLORPICKER2_Y+55))) { sliderHeldDown = 6; // #2 B return (1); } } #ifndef __APPLE__ // "PICK" if ((mx >= COLORPICKER2_X) && (mx < (COLORPICKER2_X+33)) && (my >= (COLORPICKER2_Y+66)) && (my < (COLORPICKER2_Y+77))) colorPicker2(); #endif return (0); } static int8_t handleTrackerButtons(int32_t mx, int32_t my) { if (topScreen == 0) { // visuals screen // "DISK OP." if ((mx >= (TRACKER_X+182)) && (my >= (TRACKER_Y+33)) && (mx < (TRACKER_X+244)) && (my < (TRACKER_Y+44))) { topScreen = 1; drawTracker(); redrawScreen = 1; return (1); } // "SAMPLER" else if ((mx >= (TRACKER_X+244)) && (my >= (TRACKER_Y+33)) && (mx < (TRACKER_X+306)) && (my < (TRACKER_Y+44))) { bottomScreen ^= 1; drawTracker(); redrawScreen = 1; return (1); } // quadrascope (toggle spectrum analyzer) else if ((mx >= (TRACKER_X+120)) && (mx < (TRACKER_X+320)) && (my >= (TRACKER_Y+44)) && (my < (TRACKER_Y+99))) { analyzerShown ^= 1; drawTracker(); redrawScreen = 1; return (1); } } else { // disk op. screen // "EXIT" if ((mx >= (TRACKER_X+308)) && (mx < (TRACKER_X+320)) && (my >= (TRACKER_Y+40)) && (my < (TRACKER_Y+81))) { topScreen = 0; drawTracker(); redrawScreen = 1; return (1); } } if (bottomScreen == 1) { // sampler screen // "EXIT" if ((mx >= (TRACKER_X+7)) && (my >= (TRACKER_Y+124)) && (mx < (TRACKER_X+26)) && (my < (TRACKER_Y+135))) { bottomScreen ^= 1; drawTracker(); redrawScreen = 1; return (1); } } return (0); } static int8_t handleLoadSaveButtons(int32_t mx, int32_t my) { if ((mx >= LOADINI_X) && (mx < (LOADINI_X+108)) && (my >= LOADINI_Y) && (my < (LOADINI_Y+11))) { // "LOAD COLORS.INI" loadColorsDotIni(); return (1); } if ((mx >= LOADPT_X) && (mx < (LOADPT_X+108)) && (my >= LOADPT_Y) && (my < (LOADPT_Y+11))) { // "LOAD PT.CONFIG" loadPTDotConfig(); return (1); } if ((mx >= SAVE_X) && (mx < (SAVE_X+108)) && (my >= SAVE_Y) && (my < (SAVE_Y+11))) { // "SAVE COLORS.INI" savePalette(1); return (1); } return (0); } static uint16_t colCrossFade(uint16_t col1, uint16_t col2, uint16_t idx, uint16_t len) { uint16_t color, ch, a, b, nybble; color = 0; for (ch = 0; ch < 3; ++ch) { a = (col1 >> (ch * 4)) & 15; b = (col2 >> (ch * 4)) & 15; nybble = (((a * ((len * 2) - (idx * 2))) + len) + (b * (idx * 2))) / (len * 2); if (nybble > 15) nybble = 15; color |= (nybble << (ch * 4)); } return (color); } static void chkSpread(void) { uint8_t tmp, x1, x2; uint16_t i, length; spreadFlag = 0; x1 = spreadFrom; x2 = rainbowPos; // exchange x1/x2 if x1>x2 if (x1 > x2) { tmp = x1; x1 = x2; x2 = tmp; } length = x2 - x1; if (length <= 1) return; for (i = 0; i <= length; ++i) theRightColors[x1 + i] = colCrossFade(theRightColors[x1], theRightColors[x2], i, length); if (theRightColors == vuColors) updateVuMeterBMP(); else updateSpectrumAnalyzerBMP(); drawTracker(); drawColorPicker2(); redrawScreen = 1; configIsSaved = 0; } void mouseButtonUpHandler(void) { if (spreadFlag && rainbowHeldDown) chkSpread(); buttonCounter = 0; sliderHeldDown = 0; rainbowHeldDown = 0; rainbowUpHeldDown = 0; rainbowDownHeldDown = 0; } void mouseButtonDownHandler(void) { uint32_t mx, my; mx = input.mouse.x; my = input.mouse.y; if (handleColorPicker1(mx, my)) return; if (handleColorPicker2(mx, my)) return; if (handleTrackerButtons(mx, my)) return; if (handleLoadSaveButtons(mx, my)) return; } void keyDownHandler(SDL_Keycode keyEntry) { // exit sampler/disk op. if (keyEntry == SDLK_ESCAPE) { topScreen = 0; bottomScreen = 0; drawTracker(); redrawScreen = 1; } } void fillRect(uint32_t xPos, uint32_t yPos, uint32_t w, uint32_t h, uint32_t color) { uint32_t *dstPtr, x, y; dstPtr = &frameBuffer[(yPos * SCREEN_W) + xPos]; for (y = 0; y < h; ++y) { for (x = 0; x < w; ++x) dstPtr[x] = color; dstPtr += SCREEN_W; } } void drawBox1(uint32_t x, uint32_t y, uint32_t w, uint32_t h) { fillRect(x + 1, y + 1, w - 1, h - 1, 0x888888); hLine(x+0, y+0, w-1, 0xBBBBBB); vLine(x+0, y+1, h-2, 0xBBBBBB); hLine(x+1, y+h-1, w-1, 0x555555); vLine(x+w-1, y+1, h-2, 0x555555); frameBuffer[((y + (h - 1)) * SCREEN_W) + x] = 0x888888; frameBuffer[(y * SCREEN_W) + (x + (w - 1))] = 0x888888; } void drawBox2(uint32_t x, uint32_t y, uint32_t w, uint32_t h) { fillRect(x + 1, y + 1, w - 1, h - 1, 0); hLine(x+0, y+0, w-1, 0x555555); vLine(x+0, y+1, h-2, 0x555555); hLine(x+1, y+h-1, w-1, 0xBBBBBB); vLine(x+w-1, y+1, h-2, 0xBBBBBB); frameBuffer[((y + (h - 1)) * SCREEN_W) + x] = 0x888888; frameBuffer[(y * SCREEN_W) + (x + (w - 1))] = 0x888888; } void drawSliders1(uint32_t x, uint32_t y) { uint32_t xPos; // R xPos = x + 25 + (R12(palette[currColor]) * 3); fillRect(xPos, y + 4, 5, 3, 0xFFDD00); // G xPos = x + 25 + (G12(palette[currColor]) * 3); fillRect(xPos, y + 15, 5, 3, 0xFFDD00); // B xPos = x + 25 + (B12(palette[currColor]) * 3); fillRect(xPos, y + 26, 5, 3, 0xFFDD00); } void drawSliders2(uint32_t x, uint32_t y) { uint32_t xPos; // R xPos = x + 25 + (R12(theRightColors[rainbowPos]) * 3); fillRect(xPos, y + 26, 5, 3, 0xFFDD00); // G xPos = x + 25 + (G12(theRightColors[rainbowPos]) * 3); fillRect(xPos, y + 37, 5, 3, 0xFFDD00); // B xPos = x + 25 + (B12(theRightColors[rainbowPos]) * 3); fillRect(xPos, y + 48, 5, 3, 0xFFDD00); } void drawColorPicker1(void) { char strBuf[24]; uint32_t i, j, xPos, yPos, color; const uint32_t x = COLORPICKER1_X; const uint32_t y = COLORPICKER1_Y; // R, G, B drawBox1(x, y, 21, 11); textOutShadow(x+7, y+ 3, 0xBBBBBB, 0x555555, "R"); drawBox1(x, y+11, 21, 11); textOutShadow(x+7, y+14, 0xBBBBBB, 0x555555, "G"); drawBox1(x, y+22, 21, 11); textOutShadow(x+7, y+25, 0xBBBBBB, 0x555555, "B"); // sliders drawBox1(x+21, y, 58, 11); drawBox2(x+23, y+2, 54, 7); drawBox1(x+21, y+11, 58, 11); drawBox2(x+23, y+2+11, 54, 7); drawBox1(x+21, y+22, 58, 11); drawBox2(x+23, y+2+22, 54, 7); // draw slider ticks for (i = 0; i < 3; ++i) { xPos = x + 27; yPos = y + 2 + (i * 11); for (j = 0; j < 16; ++j) { if (((j % 4) == 0) || (j == 15)) frameBuffer[((yPos - 1) * SCREEN_W) + xPos] = 0xBBBBBB; frameBuffer[(yPos * SCREEN_W) + xPos] = 0xBBBBBB; xPos += 3; } } // buttons drawBox1(x, y+33, 33, 11); textOutShadow(x+3, y+36, 0xBBBBBB, 0x555555, "UNDO"); drawBox1(x+33, y+33, 46, 11); textOutShadow(x+35, y+36, 0xBBBBBB, 0x555555, "CANCEL"); drawBox1(x+79, y+33, 29, 11); textOutShadow(x+84, y+36, 0xBBBBBB, 0x555555, "DEF"); #ifndef __APPLE__ // "PICK" button drawBox1(x, y + 44, 33, 11); textOutShadow(x + 3, y + 47, 0xBBBBBB, 0x555555, "PICK"); // color value drawBox1(x + 33, y + 44, 75, 11); sprintf(strBuf, "%06X", RGB12_to_RGB24(palette[currColor])); textOut(x + 50, y + 47, 0, strBuf); #else // color value drawBox1(x, y + 44, 108, 11); textOutShadow(x + 3, y + 47, 0xBBBBBB, 0x555555, "RGB24:"); sprintf(strBuf, "%06X", RGB12_to_RGB24(palette[currColor])); textOut(x + 55, y + 47, 0, strBuf); #endif // colors drawBox1(x+79, y, 29, 33); drawBox2(x+81, y+3, 12, 27); drawBox2(x+94, y+3, 12, 27); // draw colors for (i = 0; i < 2; ++i) { xPos = (i == 0) ? (x + 83) : (x + 96); for (j = 0; j < 4; ++j) { yPos = y + 5 + (j * 6); color = (i * 4) + j; if (color == currColor) // palette is selected fillRect(xPos - 1, yPos - 1, 10, 7, 0xFFDD00); fillRect(xPos, yPos, 8, 5, RGB12_to_RGB24(palette[color])); } } drawSliders1(x, y); } void drawColorPicker2(void) { char strBuf[24]; uint32_t pixel24, i, j, xPos, yPos, *dstPtr; const uint32_t x = COLORPICKER2_X; const uint32_t y = COLORPICKER2_Y; // edit mode box drawBox1(x, y, 79, 11); blit32(x+2, y+3, 19, 6, editText); textOut(x+22, y+3, 0, (theRightColors == vuColors) ? "VU-METER" : "ANALYZER"); // colors box drawBox1(x+79, y+0, 29, 55); drawBox2(x+81, y+1, 25, 53); // top buttons drawBox1(x+0, y+11, 16, 11); blit32(x+5, y+13, 6, 7, arrowUp); drawBox1(x+16, y+11, 16, 11); blit32(x+21, y+13, 6, 7, arrowDown); drawBox1(x+32, y+11, 47, 11); textOutShadow(x+35, y+14, 0xBBBBBB, 0x555555, "SPREAD"); // R, G, B drawBox1(x, y+22, 21, 11); textOutShadow(x+7, y+25, 0xBBBBBB, 0x555555, "R"); drawBox1(x, y+33, 21, 11); textOutShadow(x+7, y+36, 0xBBBBBB, 0x555555, "G"); drawBox1(x, y+44, 21, 11); textOutShadow(x+7, y+47, 0xBBBBBB, 0x555555, "B"); // sliders drawBox1(x+21, y+22, 58, 11); drawBox2(x+23, y+24, 54, 7); drawBox1(x+21, y+33, 58, 11); drawBox2(x+23, y+35, 54, 7); drawBox1(x+21, y+44, 58, 11); drawBox2(x+23, y+46, 54, 7); // draw slider ticks for (i = 0; i < 3; ++i) { xPos = x + 27; yPos = y + 24 + (i * 11); for (j = 0; j < 16; ++j) { if (((j % 4) == 0) || (j == 15)) frameBuffer[((yPos - 1) * SCREEN_W) + xPos] = 0xBBBBBB; frameBuffer[(yPos * SCREEN_W) + xPos] = 0xBBBBBB; xPos += 3; } } // bottom buttons drawBox1(x, y+55, 33, 11); textOutShadow(x+3, y+58, 0xBBBBBB, 0x555555, "UNDO"); drawBox1(x+33, y+55, 46, 11); textOutShadow(x+35, y+58, 0xBBBBBB, 0x555555, "CANCEL"); drawBox1(x+79, y+55, 29, 11); textOutShadow(x+84, y+58, 0xBBBBBB, 0x555555, "DEF"); // draw colors for (i = 0; i < 48; ++i) { if ((i > 35) && (theRightColors == analyzerColors)) pixel24 = 0; // spectrum analyzer graphics only has 36 lines else pixel24 = RGB12_to_RGB24(theRightColors[i]); // draw current line dstPtr = &frameBuffer[((y+3+i) * SCREEN_W) + (x+88)]; for (j = 0; j < 11; ++j) dstPtr[j] = pixel24; } // draw color selection lines hLine(x+ 83, y+3+rainbowPos, 4, 0xFFDD00); hLine(x+100, y+3+rainbowPos, 4, 0xFFDD00); #ifndef __APPLE__ // "PICK" button drawBox1(x, y + 66, 33, 11); textOutShadow(x + 3, y + 69, 0xBBBBBB, 0x555555, "PICK"); // color value pixel24 = RGB12_to_RGB24(theRightColors[rainbowPos]); drawBox1(x + 33, y + 66, 75, 11); sprintf(strBuf, "%06X", pixel24); textOut(x + 50, y + 69, 0, strBuf); #else // color value pixel24 = RGB12_to_RGB24(theRightColors[rainbowPos]); drawBox1(x, y + 66, 108, 11); textOutShadow(x + 3, y + 69, 0xBBBBBB, 0x555555, "RGB24:"); sprintf(strBuf, "%06X", pixel24); textOut(x + 55, y + 69, 0, strBuf); #endif drawSliders2(x, y); } void setupGUI(void) { fillRect(0, 0, SCREEN_W, SCREEN_H, 0x323E68); setDefaultPalette(); setDefaultVuColors(); setDefaultAnalyzerColors(); updateBMPs(); fillCancel1Colors(); fillCancel2Colors(); setUndo1Color(currColor); setUndo2Color(rainbowPos); // draw texts textOutShadow(98, 5, 0xF2F2F2, 0x0F121C, "- TRACKER PREVIEW -"); textOutShadow(343, 5, 0xF2F2F2, 0x0F121C, "- PALETTE -"); textOutShadow(332, 93, 0xF2F2F2, 0x0F121C, "- VISUALIZER -"); textOutShadow(325, 244, 0xF2F2F2, 0x0F121C, "<-- Clickable:"); textOutShadow(326, 252, 0xF2F2F2, 0x0F121C, "DISK OP."); textOutShadow(326, 258, 0xF2F2F2, 0x0F121C, "SAMPLER"); textOutShadow(326, 264, 0xF2F2F2, 0x0F121C, "QUADRASCOPE"); drawTracker(); // draw tracker preview border hLine(TRACKER_X-1, TRACKER_Y-1, 320+2, 0xF2F2F2); vLine(TRACKER_X-1, TRACKER_Y+0, 255+0, 0xF2F2F2); hLine(TRACKER_X-1, TRACKER_Y+255, 320+2, 0xF2F2F2); vLine(TRACKER_X+320, TRACKER_Y+0, 255+0, 0xF2F2F2); drawColorPicker1(); drawColorPicker2(); // draw load/save buttons drawBox1(LOADINI_X, LOADINI_Y, 108, 11); textOutShadow(LOADINI_X+2, LOADINI_Y+3, 0xBBBBBB, 0x555555, "LOAD COLORS.INI"); drawBox1(LOADPT_X, LOADPT_Y, 108, 11); textOutShadow(LOADPT_X+5, LOADPT_Y+3, 0xBBBBBB, 0x555555, "LOAD PT.CONFIG"); drawBox1(SAVE_X, SAVE_Y, 108, 11); textOutShadow(SAVE_X+2, SAVE_Y+3, 0xBBBBBB, 0x555555, "SAVE COLORS.INI"); redrawScreen = 1; }