306 lines
16 KiB
C
306 lines
16 KiB
C
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#ifndef __INC_PIXELSET_H
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#define __INC_PIXELSET_H
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#include "FastLED.h"
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#ifndef abs
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#include <stdlib.h>
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#endif
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/// Represents a set of CRGB led objects. Provides the [] array operator, and works like a normal array in that case.
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/// This should be kept in sync with the set of functions provided by CRGB as well as functions in colorutils. Note
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/// that a pixel set is a window into another set of led data, it is not its own set of led data.
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template<class PIXEL_TYPE>
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class CPixelView {
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public:
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const int8_t dir;
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const int len;
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PIXEL_TYPE * const leds;
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PIXEL_TYPE * const end_pos;
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public:
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/// PixelSet copy constructor
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inline CPixelView(const CPixelView & other) : dir(other.dir), len(other.len), leds(other.leds), end_pos(other.end_pos) {}
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/// pixelset constructor for a pixel set starting at the given PIXEL_TYPE* and going for _len leds. Note that the length
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/// can be backwards, creating a PixelSet that walks backwards over the data
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/// @param leds point to the raw led data
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/// @param len how many leds in this set
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inline CPixelView(PIXEL_TYPE *_leds, int _len) : dir(_len < 0 ? -1 : 1), len(_len), leds(_leds), end_pos(_leds + _len) {}
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/// PixelSet constructor for the given set of leds, with start and end boundaries. Note that start can be after
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/// end, resulting in a set that will iterate backwards
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/// @param leds point to the raw led data
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/// @param start the start index of the leds for this array
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/// @param end the end index of the leds for this array
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inline CPixelView(PIXEL_TYPE *_leds, int _start, int _end) : dir(((_end-_start)<0) ? -1 : 1), len((_end - _start) + dir), leds(_leds + _start), end_pos(_leds + _start + len) {}
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/// Get the size of this set
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/// @return the size of the set
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int size() { return abs(len); }
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/// Whether or not this set goes backwards
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/// @return whether or not the set is backwards
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bool reversed() { return len < 0; }
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/// do these sets point to the same thing (note, this is different from the contents of the set being the same)
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bool operator==(const CPixelView & rhs) const { return leds == rhs.leds && len == rhs.len && dir == rhs.dir; }
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/// do these sets point to the different things (note, this is different from the contents of the set being the same)
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bool operator!=(const CPixelView & rhs) const { return leds != rhs.leds || len != rhs.len || dir != rhs.dir; }
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/// access a single element in this set, just like an array operator
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inline PIXEL_TYPE & operator[](int x) const { if(dir & 0x80) { return leds[-x]; } else { return leds[x]; } }
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/// Access an inclusive subset of the leds in this set. Note that start can be greater than end, which will
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/// result in a reverse ordering for many functions (useful for mirroring)
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/// @param start the first element from this set for the new subset
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/// @param end the last element for the new subset
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inline CPixelView operator()(int start, int end) { return CPixelView(leds, start, end); }
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/// Access an inclusive subset of the leds in this set, starting from the first.
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/// @param end the last element for the new subset
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/// Not sure i want this? inline CPixelView operator()(int end) { return CPixelView(leds, 0, end); }
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/// Return the reverse ordering of this set
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inline CPixelView operator-() { return CPixelView(leds + len - dir, len - dir, 0); }
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/// Return a pointer to the first element in this set
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inline operator PIXEL_TYPE* () const { return leds; }
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/// Assign the passed in color to all elements in this set
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/// @param color the new color for the elements in the set
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inline CPixelView & operator=(const PIXEL_TYPE & color) {
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for(iterator pixel = begin(), _end = end(); pixel != _end; ++pixel) { (*pixel) = color; }
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return *this;
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}
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void dump() const {
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/**
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Serial.print("len: "); Serial.print(len); Serial.print(", dir:"); Serial.print((int)dir);
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Serial.print(", range:"); Serial.print((uint32_t)leds); Serial.print("-"); Serial.print((uint32_t)end_pos);
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Serial.print(", diff:"); Serial.print((int32_t)(end_pos - leds));
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Serial.println("");
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**/
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}
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/// Copy the contents of the passed in set to our set. Note if one set is smaller than the other, only the
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/// smallest number of items will be copied over.
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inline CPixelView & operator=(const CPixelView & rhs) {
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for(iterator pixel = begin(), rhspixel = rhs.begin(), _end = end(), rhs_end = rhs.end(); (pixel != _end) && (rhspixel != rhs_end); ++pixel, ++rhspixel) {
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(*pixel) = (*rhspixel);
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}
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return *this;
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}
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/// @name modification/scaling operators
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//@{
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/// Add the passed in value to r,g, b for all the pixels in this set
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inline CPixelView & addToRGB(uint8_t inc) { for(iterator pixel = begin(), _end = end(); pixel != _end; ++pixel) { (*pixel) += inc; } return *this; }
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/// Add every pixel in the other set to this set
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inline CPixelView & operator+=(CPixelView & rhs) { for(iterator pixel = begin(), rhspixel = rhs.begin(), _end = end(), rhs_end = rhs.end(); (pixel != _end) && (rhspixel != rhs_end); ++pixel, ++rhspixel) { (*pixel) += (*rhspixel); } return *this; }
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/// Subtract the passed in value from r,g,b for all pixels in this set
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inline CPixelView & subFromRGB(uint8_t inc) { for(iterator pixel = begin(), _end = end(); pixel != _end; ++pixel) { (*pixel) -= inc; } return *this; }
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/// Subtract every pixel in the other set from this set
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inline CPixelView & operator-=(CPixelView & rhs) { for(iterator pixel = begin(), rhspixel = rhs.begin(), _end = end(), rhs_end = rhs.end(); (pixel != _end) && (rhspixel != rhs_end); ++pixel, ++rhspixel) { (*pixel) -= (*rhspixel); } return *this; }
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/// Increment every pixel value in this set
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inline CPixelView & operator++() { for(iterator pixel = begin(), _end = end(); pixel != _end; ++pixel) { (*pixel)++; } return *this; }
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/// Increment every pixel value in this set
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inline CPixelView & operator++(int DUMMY_ARG) { for(iterator pixel = begin(), _end = end(); pixel != _end; ++pixel) { (*pixel)++; } return *this; }
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/// Decrement every pixel value in this set
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inline CPixelView & operator--() { for(iterator pixel = begin(), _end = end(); pixel != _end; ++pixel) { (*pixel)--; } return *this; }
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/// Decrement every pixel value in this set
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inline CPixelView & operator--(int DUMMY_ARG) { for(iterator pixel = begin(), _end = end(); pixel != _end; ++pixel) { (*pixel)--; } return *this; }
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/// Divide every led by the given value
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inline CPixelView & operator/=(uint8_t d) { for(iterator pixel = begin(), _end = end(); pixel != _end; ++pixel) { (*pixel) /= d; } return *this; }
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/// Shift every led in this set right by the given number of bits
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inline CPixelView & operator>>=(uint8_t d) { for(iterator pixel = begin(), _end = end(); pixel != _end; ++pixel) { (*pixel) >>= d; } return *this; }
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/// Multiply every led in this set by the given value
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inline CPixelView & operator*=(uint8_t d) { for(iterator pixel = begin(), _end = end(); pixel != _end; ++pixel) { (*pixel) *= d; } return *this; }
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/// Scale every led by the given scale
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inline CPixelView & nscale8_video(uint8_t scaledown) { for(iterator pixel = begin(), _end = end(); pixel != _end; ++pixel) { (*pixel).nscale8_video(scaledown); } return *this;}
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/// Scale down every led by the given scale
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inline CPixelView & operator%=(uint8_t scaledown) { for(iterator pixel = begin(), _end = end(); pixel != _end; ++pixel) { (*pixel).nscale8_video(scaledown); } return *this; }
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/// Fade every led down by the given scale
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inline CPixelView & fadeLightBy(uint8_t fadefactor) { return nscale8_video(255 - fadefactor); }
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/// Scale every led by the given scale
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inline CPixelView & nscale8(uint8_t scaledown) { for(iterator pixel = begin(), _end = end(); pixel != _end; ++pixel) { (*pixel).nscale8(scaledown); } return *this; }
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/// Scale every led by the given scale
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inline CPixelView & nscale8(PIXEL_TYPE & scaledown) { for(iterator pixel = begin(), _end = end(); pixel != _end; ++pixel) { (*pixel).nscale8(scaledown); } return *this; }
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/// Scale every led in this set by every led in the other set
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inline CPixelView & nscale8(CPixelView & rhs) { for(iterator pixel = begin(), rhspixel = rhs.begin(), _end = end(), rhs_end = rhs.end(); (pixel != _end) && (rhspixel != rhs_end); ++pixel, ++rhspixel) { (*pixel).nscale8((*rhspixel)); } return *this; }
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/// Fade every led down by the given scale
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inline CPixelView & fadeToBlackBy(uint8_t fade) { return nscale8(255 - fade); }
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/// Apply the PIXEL_TYPE |= operator to every pixel in this set with the given PIXEL_TYPE value (bringing each channel to the higher of the two values)
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inline CPixelView & operator|=(const PIXEL_TYPE & rhs) { for(iterator pixel = begin(), _end = end(); pixel != _end; ++pixel) { (*pixel) |= rhs; } return *this; }
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/// Apply the PIXEL_TYPE |= operator to every pixel in this set with every pixel in the passed in set
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inline CPixelView & operator|=(const CPixelView & rhs) { for(iterator pixel = begin(), rhspixel = rhs.begin(), _end = end(), rhs_end = rhs.end(); (pixel != _end) && (rhspixel != rhs_end); ++pixel, ++rhspixel) { (*pixel) |= (*rhspixel); } return *this; }
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/// Apply the PIXEL_TYPE |= operator to every pixel in this set
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inline CPixelView & operator|=(uint8_t d) { for(iterator pixel = begin(), _end = end(); pixel != _end; ++pixel) { (*pixel) |= d; } return *this; }
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/// Apply the PIXEL_TYPE &= operator to every pixel in this set with the given PIXEL_TYPE value (bringing each channel down to the lower of the two values)
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inline CPixelView & operator&=(const PIXEL_TYPE & rhs) { for(iterator pixel = begin(), _end = end(); pixel != _end; ++pixel) { (*pixel) &= rhs; } return *this; }
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/// Apply the PIXEL_TYPE &= operator to every pixel in this set with every pixel in the passed in set
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inline CPixelView & operator&=(const CPixelView & rhs) { for(iterator pixel = begin(), rhspixel = rhs.begin(), _end = end(), rhs_end = rhs.end(); (pixel != _end) && (rhspixel != rhs_end); ++pixel, ++rhspixel) { (*pixel) &= (*rhspixel); } return *this; }
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/// APply the PIXEL_TYPE &= operator to every pixel in this set with the passed in value
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inline CPixelView & operator&=(uint8_t d) { for(iterator pixel = begin(), _end = end(); pixel != _end; ++pixel) { (*pixel) &= d; } return *this; }
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//@}
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/// Returns whether or not any leds in this set are non-zero
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inline operator bool() { for(iterator pixel = begin(), _end = end(); pixel != _end; ++pixel) { if((*pixel)) return true; } return false; }
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// Color util functions
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inline CPixelView & fill_solid(const PIXEL_TYPE & color) { *this = color; return *this; }
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inline CPixelView & fill_solid(const CHSV & color) { if(dir>0) { *this = color; return *this; } }
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inline CPixelView & fill_rainbow(uint8_t initialhue, uint8_t deltahue=5) {
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if(dir >= 0) {
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::fill_rainbow(leds,len,initialhue,deltahue);
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} else {
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::fill_rainbow(leds+len+1,-len,initialhue,deltahue);
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}
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return *this;
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}
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inline CPixelView & fill_gradient(const CHSV & startcolor, const CHSV & endcolor, TGradientDirectionCode directionCode = SHORTEST_HUES) {
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if(dir >= 0) {
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::fill_gradient(leds,len,startcolor, endcolor, directionCode);
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} else {
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::fill_gradient(leds + len + 1, (-len), endcolor, startcolor, directionCode);
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}
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return *this;
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}
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inline CPixelView & fill_gradient(const CHSV & c1, const CHSV & c2, const CHSV & c3, TGradientDirectionCode directionCode = SHORTEST_HUES) {
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if(dir >= 0) {
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::fill_gradient(leds, len, c1, c2, c3, directionCode);
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} else {
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::fill_gradient(leds + len + 1, -len, c3, c2, c1, directionCode);
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}
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return *this;
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}
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inline CPixelView & fill_gradient(const CHSV & c1, const CHSV & c2, const CHSV & c3, const CHSV & c4, TGradientDirectionCode directionCode = SHORTEST_HUES) {
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if(dir >= 0) {
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::fill_gradient(leds, len, c1, c2, c3, c4, directionCode);
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} else {
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::fill_gradient(leds + len + 1, -len, c4, c3, c2, c1, directionCode);
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}
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return *this;
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}
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inline CPixelView & fill_gradient_RGB(const PIXEL_TYPE & startcolor, const PIXEL_TYPE & endcolor, TGradientDirectionCode directionCode = SHORTEST_HUES) {
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if(dir >= 0) {
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::fill_gradient_RGB(leds,len,startcolor, endcolor);
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} else {
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::fill_gradient_RGB(leds + len + 1, (-len), endcolor, startcolor);
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}
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return *this;
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}
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inline CPixelView & fill_gradient_RGB(const PIXEL_TYPE & c1, const PIXEL_TYPE & c2, const PIXEL_TYPE & c3) {
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if(dir >= 0) {
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::fill_gradient_RGB(leds, len, c1, c2, c3);
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} else {
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::fill_gradient_RGB(leds + len + 1, -len, c3, c2, c1);
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}
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return *this;
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}
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inline CPixelView & fill_gradient_RGB(const PIXEL_TYPE & c1, const PIXEL_TYPE & c2, const PIXEL_TYPE & c3, const PIXEL_TYPE & c4) {
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if(dir >= 0) {
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::fill_gradient_RGB(leds, len, c1, c2, c3, c4);
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} else {
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::fill_gradient_RGB(leds + len + 1, -len, c4, c3, c2, c1);
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}
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return *this;
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}
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inline CPixelView & nblend(const PIXEL_TYPE & overlay, fract8 amountOfOverlay) { for(iterator pixel = begin(), _end = end(); pixel != _end; ++pixel) { ::nblend((*pixel), overlay, amountOfOverlay); } return *this; }
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inline CPixelView & nblend(const CPixelView & rhs, fract8 amountOfOverlay) { for(iterator pixel = begin(), rhspixel = rhs.begin(), _end = end(), rhs_end = rhs.end(); (pixel != _end) && (rhspixel != rhs_end); ++pixel, ++rhspixel) { ::nblend((*pixel), (*rhspixel), amountOfOverlay); } return *this; }
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// Note: only bringing in a 1d blur, not sure 2d blur makes sense when looking at sub arrays
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inline CPixelView & blur1d(fract8 blur_amount) {
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if(dir >= 0) {
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::blur1d(leds, len, blur_amount);
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} else {
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::blur1d(leds + len + 1, -len, blur_amount);
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}
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return *this;
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}
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inline CPixelView & napplyGamma_video(float gamma) {
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if(dir >= 0) {
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::napplyGamma_video(leds, len, gamma);
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} else {
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::napplyGamma_video(leds + len + 1, -len, gamma);
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}
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return *this;
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}
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inline CPixelView & napplyGamma_video(float gammaR, float gammaG, float gammaB) {
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if(dir >= 0) {
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::napplyGamma_video(leds, len, gammaR, gammaG, gammaB);
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} else {
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::napplyGamma_video(leds + len + 1, -len, gammaR, gammaG, gammaB);
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}
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return *this;
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}
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// TODO: Make this a fully specified/proper iterator
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template <class T>
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class pixelset_iterator_base {
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T * leds;
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const int8_t dir;
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public:
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__attribute__((always_inline)) inline pixelset_iterator_base(const pixelset_iterator_base & rhs) : leds(rhs.leds), dir(rhs.dir) {}
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__attribute__((always_inline)) inline pixelset_iterator_base(T * _leds, const char _dir) : leds(_leds), dir(_dir) {}
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__attribute__((always_inline)) inline pixelset_iterator_base& operator++() { leds += dir; return *this; }
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__attribute__((always_inline)) inline pixelset_iterator_base operator++(int) { pixelset_iterator_base tmp(*this); leds += dir; return tmp; }
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__attribute__((always_inline)) inline bool operator==(pixelset_iterator_base & other) const { return leds == other.leds; } // && set==other.set; }
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__attribute__((always_inline)) inline bool operator!=(pixelset_iterator_base & other) const { return leds != other.leds; } // || set != other.set; }
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__attribute__((always_inline)) inline PIXEL_TYPE& operator*() const { return *leds; }
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};
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typedef pixelset_iterator_base<PIXEL_TYPE> iterator;
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typedef pixelset_iterator_base<const PIXEL_TYPE> const_iterator;
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iterator begin() { return iterator(leds, dir); }
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iterator end() { return iterator(end_pos, dir); }
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iterator begin() const { return iterator(leds, dir); }
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iterator end() const { return iterator(end_pos, dir); }
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const_iterator cbegin() const { return const_iterator(leds, dir); }
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const_iterator cend() const { return const_iterator(end_pos, dir); }
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};
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typedef CPixelView<CRGB> CRGBSet;
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__attribute__((always_inline))
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inline CRGB *operator+(const CRGBSet & pixels, int offset) { return (CRGB*)pixels + offset; }
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template<int SIZE>
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class CRGBArray : public CPixelView<CRGB> {
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CRGB rawleds[SIZE];
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public:
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CRGBArray() : CPixelView<CRGB>(rawleds, SIZE) {}
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using CPixelView::operator=;
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};
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#endif
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