void GdImageRenderer::initColors(const WaveformColors& colors)
{
border_color_ = createColor(colors.border_color);
background_color_ = createColor(colors.background_color);
waveform_color_ = createColor(colors.waveform_color);
axis_label_color_ = createColor(colors.axis_label_color);
}
void happy(LedGroup* group) {
byte r = Red(currentColor);
byte g = Green(currentColor);
byte b = Blue(currentColor);
Color highColor1 = createColor(r/ 2, g/2, b/2);
Color highColor2 = createColor(250, 250, 250);
for(int i=0;i<group->selectionLen; i++) {
switch(group->pixelState[i]) {
case 0:
group->targetColors[i] = highColor1;
group->pixelState[i]++;
break;
case 1:
updateState(group, i, i);
break;
case 2:
if(i == group->selectionLen - 1 && group->selectionLen < 10) {
group->animatingPixel[group->selectionLen] = nextUnselected(group);
group->pixelState[group->selectionLen] = 0;
group->selectionLen++;
}
group->targetColors[i] = highColor2;
group->pixelState[i]++;
break;
case 3:
updateState(group, i, i);
break;
case 4:
group->targetColors[i] = currentColor;
group->pixelState[i]++;
break;
case 5:
updateState(group, i, i);
break;
default:
group->pixelState[i] = 0;
group->animatingPixel[i] = nextUnselected(group);
if(firstUnselected(group) >= group->length - 1) {
group->animation = &flicker;
group->selection = &flickerStrategy;
group->counter = 0;
group->waitFrames = 0;
}
}
}
}
/*
* function to set the current displayInfo's colors in the color palette
* and define the rcType (element type) being modified by any
* color palette selections
*/
void setCurrentDisplayColorsInColorPalette(
int rcType,
int index) /* for types with color vectors, also specify element */
{
Arg args[2];
int i, n = 0;
/* create the color palette if it doesn't yet exist */
if (colorMW == NULL) createColor();
if (currentDisplayInfo == NULL) {
/* reset to default colormap */
currentColormap = defaultColormap;
for (i = 0; i < DL_MAX_COLORS; i++) {
XtSetArg(args[0],XmNbackground,(Pixel)currentColormap[i]);
XtSetValues(globalColorPalettePB[i],args,1);
}
} else {
currentColormap = currentDisplayInfo->colormap;
for (i = 0; i < MIN(currentDisplayInfo->dlColormapCounter,
DL_MAX_COLORS); i++) {
XtSetArg(args[0],XmNbackground,currentColormap[i]); n++;
XtSetValues(globalColorPalettePB[i],args,1);
}
}
elementTypeWhoseColorIsBeingEditted = rcType;
elementTypeWhoseColorIsBeingEdittedIndex = index;
}
Game* createGame(char* title, int width, int height, float windowScale)
{
printf("Allocating %fMB of memory...\n", (float)sizeof(Game)/1024/1024);
Game* game = (Game*)calloc(1, sizeof(Game));
printf("Success!\n");
game->internalResolution = createPointi(width, height);
game->windowScale = windowScale;
State state;
state.level = 1;
state.stage = 1;
state.lives = 5;
state.score = 0;
game->state = state;
game->window = SDL_CreateWindow(
title,
SDL_WINDOWPOS_UNDEFINED,
SDL_WINDOWPOS_UNDEFINED,
(int)((float)width * windowScale), (int)((float)height * windowScale),
SDL_WINDOW_RESIZABLE | SDL_WINDOW_SHOWN);
//SDL_WINDOW_FULLSCREEN_DESKTOP);
game->renderer =
SDL_CreateRenderer(game->window, -1,
SDL_RENDERER_ACCELERATED | SDL_RENDERER_PRESENTVSYNC);
SDL_RenderSetLogicalSize(game->renderer, width, height);
SDL_SetRenderDrawColor(game->renderer, 255, 255, 255, 255);
game->clearColor = createColor(0, 0, 0, 255);
game->drawAlpha = 1.0f;
return game;
}
Entity* createEntity(Game* game, int type, Pointf position)
{
for(int i = 0; i < MAX_ENTITIES_PER_GAME; ++i)
if(!game->entities[i].alive)
{
Entity* entity = &game->entities[i];
Entity blank = { 0 };
*entity = blank;
entity->alive = true;
entity->type = type;
entity->position = position;
entity->size = createPointi(16, 16);
entity->origin = createPointi(8, 8);
entity->color = createColor(255, 255, 0, 255);
entity->drawRectangle = true;
entity->collidable = true;
return entity;
}
printf("Error: Ran out of room for entities");
return null;
}
JNIEXPORT void JNICALL Java_jp_dego_sample_ipcv_MainActivity_getHairArea(JNIEnv *env, jobject obj, jobject bmp,
jint eyes_cp, jint eyes_w)
{
AndroidBitmapInfo info;
void* pixels;
// Bitmapの情報を取得
if (AndroidBitmap_getInfo(env, bmp, &info) < 0)
return;
// Bitmapのフォーマットをチェック
if (info.format != ANDROID_BITMAP_FORMAT_RGBA_8888)
return;
// Bitmapをロック
if (AndroidBitmap_lockPixels(env, bmp, &pixels) < 0)
return;
jint *p = pixels;
int w = info.width;
int h = info.height;
// サンプルカラーの取得
LAB *sc;
sc = getSampleColor(p, w, h, (int)eyes_cp, (int)eyes_w);
// 髪色強度マップの作成
float *map;
map = getHairIntensity(p, w, h, sc);
int i, j;
// Get Maximum and Minimum Value
float max, min;
max = *map;
min = *map;
for (i = 1; i < info.width * info.height; i++) {
if (max < *(map + i))
max = *(map + i);
if (min > *(map + i))
min = *(map + i);
}
// 256段階でグレースケール化
unsigned char gray;
int s;
jint col;
for (j = 0; j < info.height; j++) {
for (i = 0; i < info.width; i++) {
s = (int)((*(map + j * info.width + i) - (float)min) / ((float)max - min) * 255.0f);
if (s > 255)
gray = 255;
else if (s < 1)
gray = 0;
else
gray = (unsigned char)s;
col = createColor(0xFF, gray, gray, gray);
p[j * info.width + i] = col;
}
}
free(map);
}
void MythUIHelper::SetPalette(QWidget *widget)
{
QPalette pal = widget->palette();
const QString names[] = { "Foreground", "Button", "Light", "Midlight",
"Dark", "Mid", "Text", "BrightText", "ButtonText",
"Base", "Background", "Shadow", "Highlight",
"HighlightedText"
};
QString type = "Active";
for (int i = 0; i < 13; i++)
{
QString color = d->m_qtThemeSettings->GetSetting(type + names[i]);
if (!color.isEmpty())
pal.setColor(QPalette::Active, (QPalette::ColorRole) i,
createColor(color));
}
type = "Disabled";
for (int i = 0; i < 13; i++)
{
QString color = d->m_qtThemeSettings->GetSetting(type + names[i]);
if (!color.isEmpty())
pal.setColor(QPalette::Disabled, (QPalette::ColorRole) i,
createColor(color));
}
type = "Inactive";
for (int i = 0; i < 13; i++)
{
QString color = d->m_qtThemeSettings->GetSetting(type + names[i]);
if (!color.isEmpty())
pal.setColor(QPalette::Inactive, (QPalette::ColorRole) i,
createColor(color));
}
widget->setPalette(pal);
}
void swapCurrentColor() {
byte r = Red(currentColor);
byte g = Green(currentColor);
byte b = Blue(currentColor);
currentColor = createColor(b, r,g);
Serial.print("color:");
Serial.println(currentColor);
}
void showLed(LedGroup* group, int i) {
int index = random(1, 3);
byte r = min(Red(currentColor) + index, Red(currentColor));
byte g = min(Green(currentColor) + index, Green(currentColor));
byte b = min(Blue(currentColor) + index, Blue(currentColor));
group->waitFrames = 100;
group->targetColors[i] = createColor(r,g,b);
}
void setProportionalTargetColor(LedGroup* group, int i, float colorIntensity) {
float fr = Red(currentColor);
float fg = Green(currentColor);
float fb = Blue(currentColor);
byte r = (fr / 100.) * colorIntensity;
byte g = (fg / 100.) * colorIntensity;
byte b = (fb / 100.) * colorIntensity;
group->targetColors[i] = createColor(r, g, b);
}
void flickerSelectColor(LedGroup* group, int i, int min_, int max_) {
float proportion = random(min_, max_);
float fr = Red(currentColor);
float fg = Green(currentColor);
float fb = Blue(currentColor);
byte r = fr / proportion;
byte g = fg / proportion;
byte b = fb / proportion;
Color c = group->getColor(i);
float cr = Red(c);
float cg = Green(c);
float cb = Blue(c);
group->increment[i][0] = max(abs(cr - fr) / 10, 1);
group->increment[i][1] = max(abs(cg - fg) / 10, 1);
group->increment[i][2] = max(abs(cb - fb) / 10, 1);
group->targetColors[i] = createColor(r,g,b);
}
void Menu::setHighLightColor(const int r, const int g, const int b)
{
this->hlColor = createColor(r, g, b);
}
void Menu::setTextColor(const int r, const int g, const int b)
{
this->fgColor = createColor(r, g, b);
}
Scene createScene(char* filename){
Scene scene = {};
scene.max_depth = 10;
scene.num_samples = 100;
scene.image = createImage(500, 500);
Vector position = {278, 273, -800};
Vector look_at = {278, 273, 0};
Vector up = {0, 1, 0};
scene.camera = createCamera(position, look_at, up, 39, (float)(scene.image.width/scene.image.height));
scene.num_materials = 4;
scene.materials = malloc(scene.num_materials * sizeof(Material));
scene.materials[0] = createMaterial(createColor(.95, .25, .25), .6, .4, false);
scene.materials[1] = createMaterial(createColor(.25, .95, .25), .6, .4, false);
scene.materials[2] = createMaterial(createColor(.95, .95, .85), .6, .4, false);
scene.materials[3] = createMaterial(createColor(.9, .9, .9), .6, .4, true);
scene.num_triangles = 32;
scene.triangles = malloc(scene.num_triangles * sizeof(Triangle));
// Right Wall
scene.triangles[0] = createTriangle(&scene.materials[1], createVector(0.0, 0.0, 559.2), createVector(0.0, 0.0, 0.0), createVector(0.0, 548.8, 0.0));
scene.triangles[1] = createTriangle(&scene.materials[1], createVector(0.0, 0.0, 559.2), createVector(0.0, 548.8, 0.0), createVector(0.0, 548.8, 559.2));
// Floor
scene.triangles[2] = createTriangle(&scene.materials[2], createVector(556.0, 0.0, 0.0), createVector(0.0, 0.0, 0.0), createVector(0.0, 0.0, 559.2));
scene.triangles[3] = createTriangle(&scene.materials[2], createVector(556.0, 0.0, 0.0), createVector(0.0, 0.0, 559.2), createVector(556.0, 0.0, 559.2));
// Left Wall
scene.triangles[4] = createTriangle(&scene.materials[0], createVector(556.0, 0.0, 0.0), createVector(556.0, 0.0, 559.2), createVector(556.0, 548.8, 559.2));
scene.triangles[5] = createTriangle(&scene.materials[0], createVector(556.0, 0.0, 0.0), createVector(556.0, 548.8, 559.2), createVector(556.0, 548.8, 0.0));
// Ceiling
scene.triangles[6] = createTriangle(&scene.materials[2], createVector(556.0, 548.8, 0.0), createVector(0.0, 548.8, 559.2), createVector(0.0, 548.8, 0.0));
scene.triangles[7] = createTriangle(&scene.materials[2], createVector(556.0, 548.8, 0.0), createVector(556.0, 548.8, 559.2), createVector(0.0, 548.8, 559.2));
// Backwall
scene.triangles[8] = createTriangle(&scene.materials[2], createVector(556.0, 0.0, 559.2), createVector(0.0, 0.0, 559.2), createVector(0.0, 548.8, 559.2));
scene.triangles[9] = createTriangle(&scene.materials[2], createVector(556.0, 0.0, 559.2), createVector(0.0, 548.8, 559.2), createVector(556.0, 548.8, 559.2));
// Short Block
scene.triangles[10] = createTriangle(&scene.materials[2], createVector(130.0, 165.0, 65.0), createVector(82.0, 165.0, 225.0), createVector(240.0, 165.0, 272.0));
scene.triangles[11] = createTriangle(&scene.materials[2], createVector(130.0, 165.0, 65.0), createVector(240.0, 165.0, 272.0), createVector(290.0, 165.0, 114.0));
scene.triangles[12] = createTriangle(&scene.materials[2], createVector(290.0, 0.0, 114.0), createVector(290.0, 165.0, 114.0), createVector(240.0, 165.0, 272.0));
scene.triangles[13] = createTriangle(&scene.materials[2], createVector(290.0, 0.0, 114.0), createVector(240.0, 165.0, 272.0), createVector(240.0, 0.0, 272.0));
scene.triangles[14] = createTriangle(&scene.materials[2], createVector(130.0, 0.0, 65.0), createVector(130.0, 165.0, 65.0), createVector(290.0, 165.0, 114.0));
scene.triangles[15] = createTriangle(&scene.materials[2], createVector(130.0, 0.0, 65.0), createVector(290.0, 165.0, 114.0), createVector(290.0, 0.0, 114.0));
scene.triangles[16] = createTriangle(&scene.materials[2], createVector(82.0, 0.0, 225.0), createVector(82.0, 165.0, 225.0), createVector(130.0, 165.0, 65.0));
scene.triangles[17] = createTriangle(&scene.materials[2], createVector(82.0, 0.0, 225.0), createVector(130.0, 165.0, 65.0), createVector(130.0, 0.0, 65.0));
scene.triangles[18] = createTriangle(&scene.materials[2], createVector(240.0, 0.0, 272.0), createVector(240.0, 165.0, 272.0), createVector(82.0, 165.0, 225.0));
scene.triangles[19] = createTriangle(&scene.materials[2], createVector(240.0, 0.0, 272.0), createVector(82.0, 165.0, 225.0), createVector(82.0, 0.0, 225.0));
// Tall Block
scene.triangles[20] = createTriangle(&scene.materials[2], createVector(423.0, 330.0, 247.0), createVector(265.0, 330.0, 296.0), createVector(314.0, 330.0, 456.0));
scene.triangles[21] = createTriangle(&scene.materials[2], createVector(423.0, 330.0, 247.0), createVector(314.0, 330.0, 456.0), createVector(472.0, 330.0, 406.0));
scene.triangles[22] = createTriangle(&scene.materials[2], createVector(423.0, 0.0, 247.0), createVector(423.0, 330.0, 247.0), createVector(472.0, 330.0, 406.0));
scene.triangles[23] = createTriangle(&scene.materials[2], createVector(423.0, 0.0, 247.0), createVector(472.0, 330.0, 406.0), createVector(472.0, 0.0, 406.0));
scene.triangles[24] = createTriangle(&scene.materials[2], createVector(472.0, 0.0, 406.0), createVector(472.0, 330.0, 406.0), createVector(314.0, 330.0, 456.0));
scene.triangles[25] = createTriangle(&scene.materials[2], createVector(472.0, 0.0, 406.0), createVector(314.0, 330.0, 456.0), createVector(314.0, 0.0, 456.0));
scene.triangles[26] = createTriangle(&scene.materials[2], createVector(314.0, 0.0, 456.0), createVector(314.0, 330.0, 456.0), createVector(265.0, 330.0, 296.0));
scene.triangles[27] = createTriangle(&scene.materials[2], createVector(314.0, 0.0, 456.0), createVector(265.0, 330.0, 296.0), createVector(265.0, 0.0, 296.0));
scene.triangles[28] = createTriangle(&scene.materials[2], createVector(265.0, 0.0, 296.0), createVector(265.0, 330.0, 296.0), createVector(423.0, 330.0, 247.0));
scene.triangles[29] = createTriangle(&scene.materials[2], createVector(265.0, 0.0, 296.0), createVector(423.0, 330.0, 247.0), createVector(423.0, 0.0, 247.0));
// Area Light
scene.triangles[30] = createTriangle(&scene.materials[3], createVector(343.0, 548.7, 227.0), createVector(343.0, 548.7, 332.0), createVector(213.0, 548.7, 332.0));
scene.triangles[31] = createTriangle(&scene.materials[3], createVector(343.0, 548.7, 227.0), createVector(213.0, 548.7, 332.0), createVector(213.0, 548.7, 227.0));
scene.num_lights = 2;
scene.lights = malloc(scene.num_lights * sizeof(Triangle));
scene.lights[0] = createTriangle(&scene.materials[3], createVector(343.0, 548.7, 227.0), createVector(343.0, 548.7, 332.0), createVector(213.0, 548.7, 332.0));
scene.lights[1] = createTriangle(&scene.materials[3], createVector(343.0, 548.7, 227.0), createVector(213.0, 548.7, 332.0), createVector(213.0, 548.7, 227.0));
return scene;
}
void setDark(LedGroup* group, int i) {
group->targetColors[i] = createColor(0, 0, 0);
}
#include "groupAnimation.h"
Color currentColor = createColor(100, 50, 50);
Color availableColors[7] = {856835, 857092, 660480, 398337, 985600, 656128, 657920};
void randomColor() {
int index = random(0, 7);
Serial.print("color:");
Serial.println(availableColors[index]);
currentColor = availableColors[index];
}
void swapCurrentColor() {
byte r = Red(currentColor);
byte g = Green(currentColor);
byte b = Blue(currentColor);
currentColor = createColor(b, r,g);
Serial.print("color:");
Serial.println(currentColor);
}
void setCurrentColor(Color color) {
currentColor = color;
}
Color getCurrentColor() {
return currentColor;
}
void updateState(LedGroup* group, int i, int state) {
