pxt-calliope/libs/core/images.cpp

201 lines
5.0 KiB
C++

#include "pxt.h"
PXT_VTABLE(RefMImage, ValType::Object)
RefMImage::RefMImage(ImageData *d) : PXT_VTABLE_INIT(RefMImage), img(d) {
img->incr();
}
void RefMImage::destroy(RefMImage *t) {
t->img->decr();
}
void RefMImage::print(RefMImage *t) {
DMESG("RefMImage %p size=%d x %d", t, t->img->width, t->img->height);
}
void RefMImage::makeWritable() {
if (img->isReadOnly()) {
MicroBitImage i(img);
img = i.clone().leakData();
}
}
void RefMImage::scan(RefMImage *t) {}
unsigned RefMImage::gcsize(RefMImage *t) {
return (sizeof(*t) + 3) >> 2;
}
/**
* Creation, manipulation and display of LED images.
*/
//% color=#7600A8 weight=31 icon="\uf03e"
//% advanced=true
namespace images {
/**
* Creates an image that fits on the LED screen.
*/
//% weight=75 help=images/create-image
//% blockId=device_build_image block="create image"
//% parts="ledmatrix"
Image createImage(ImageLiteral_ leds) {
return NEW_GC(RefMImage, imageBytes(leds));
}
/**
* Creates an image with 2 frames.
*/
//% weight=74 help=images/create-big-image
//% blockId=device_build_big_image block="create big image" imageLiteral=2
//% parts="ledmatrix"
Image createBigImage(ImageLiteral_ leds) {
return createImage(leds);
}
//%
Buffer charCodeBuffer(int charCode) {
if(charCode < MICROBIT_FONT_ASCII_START || charCode > MICROBIT_FONT_ASCII_END)
return NULL;
#if MICROBIT_CODAL
auto font = codal::BitmapFont::getSystemFont();
#else
auto font = MicroBitFont::getSystemFont();
#endif
const int offset = (charCode - MICROBIT_FONT_ASCII_START) * 5;;
const uint8_t* charBuffer = font.characters + offset;
return PXT_CREATE_BUFFER(charBuffer, 5);
}
} // namespace images
namespace ImageMethods {
/**
* Plots the image at a given column to the screen
*/
//% help=images/plot-image
//% parts="ledmatrix"
void plotImage(Image i, int xOffset = 0) {
uBit.display.print(MicroBitImage(i->img), -xOffset, 0, 0, 0);
}
/**
* Shows an frame from the image at offset ``x offset``.
* @param xOffset column index to start displaying the image
* @param interval time in milliseconds to pause after drawing
*/
//% help=images/show-image weight=80 blockNamespace=images
//% blockId=device_show_image_offset block="show image %sprite(myImage)|at offset %offset ||and interval (ms) %interval"
//% interval.defl=400
//% blockGap=8 parts="ledmatrix" async
void showImage(Image sprite, int xOffset, int interval = 400) {
uBit.display.print(MicroBitImage(sprite->img), -xOffset, 0, 0, interval);
}
/**
* Draws the ``index``-th frame of the image on the screen.
* @param xOffset column index to start displaying the image
*/
//% help=images/plot-frame weight=80
//% parts="ledmatrix"
void plotFrame(Image i, int xOffset) {
// TODO showImage() used in original implementation
plotImage(i, xOffset * i->img->height);
}
/**
* Scrolls an image .
* @param frameOffset x offset moved on each animation step, eg: 1, 2, 5
* @param interval time between each animation step in milli seconds, eg: 200
*/
//% help=images/scroll-image weight=79 async blockNamespace=images
//% blockId=device_scroll_image
//% block="scroll image %sprite(myImage)|with offset %frameoffset|and interval (ms) %delay"
//% blockGap=8 parts="ledmatrix"
void scrollImage(Image id, int frameOffset, int interval) {
MicroBitImage i(id->img);
uBit.display.animate(i, interval, frameOffset, MICROBIT_DISPLAY_ANIMATE_DEFAULT_POS, 0);
}
/**
* Sets all pixels off.
*/
//% help=images/clear
//% parts="ledmatrix"
void clear(Image i) {
i->makeWritable();
MicroBitImage(i->img).clear();
}
/**
* Sets a specific pixel brightness at a given position
*/
//%
//% parts="ledmatrix"
void setPixelBrightness(Image i, int x, int y, int value) {
i->makeWritable();
MicroBitImage(i->img).setPixelValue(x, y, value);
}
/**
* Gets the pixel brightness ([0..255]) at a given position
*/
//%
//% parts="ledmatrix"
int pixelBrightness(Image i, int x, int y) {
int pix = MicroBitImage(i->img).getPixelValue(x, y);
if (pix < 0)
return 0;
return pix;
}
/**
* Gets the width in columns
*/
//% help=functions/width
int width(Image i) {
return i->img->width;
}
/**
* Gets the height in rows (always 5)
*/
//%
int height(Image i) {
return i->img->height;
}
/**
* Set a pixel state at position ``(x,y)``
* @param x pixel column
* @param y pixel row
* @param value pixel state
*/
//% help=images/set-pixel
//% parts="ledmatrix"
void setPixel(Image i, int x, int y, bool value) {
setPixelBrightness(i, x, y, value ? 255 : 0);
}
/**
* Get the pixel state at position ``(x,y)``
* @param x pixel column
* @param y pixel row
*/
//% help=images/pixel
//% parts="ledmatrix"
bool pixel(Image i, int x, int y) {
return pixelBrightness(i, x, y) > 0;
}
/**
* Show a particular frame of the image strip.
* @param frame image frame to show
*/
//% weight=70 help=images/show-frame
//% parts="ledmatrix"
void showFrame(Image i, int frame, int interval = 400) {
showImage(i, frame * i->img->height, interval);
}
} // namespace ImageMethods