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493 lines
18 KiB
C++
493 lines
18 KiB
C++
// -*- mode: c++; c-basic-offset: 2; indent-tabs-mode: nil; -*-
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// Copyright (C) 2017 Henner Zeller <h.zeller@acm.org>
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//
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// This program is free software; you can redistribute it and/or modify
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// it under the terms of the GNU General Public License as published by
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// the Free Software Foundation version 2.
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//
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// This program is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU General Public License for more details.
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//
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// You should have received a copy of the GNU General Public License
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// along with this program. If not, see <http://gnu.org/licenses/gpl-2.0.txt>
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#include "multiplex-mappers-internal.h"
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namespace rgb_matrix {
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namespace internal {
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// A Pixel Mapper maps physical pixels locations to the internal logical
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// mapping in a panel or panel-assembly, which depends on the wiring.
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class MultiplexMapperBase : public MultiplexMapper {
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public:
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MultiplexMapperBase(const char *name, int stretch_factor)
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: name_(name), panel_stretch_factor_(stretch_factor) {}
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// This method is const, but we sneakily remember the original size
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// of the panels so that we can more easily quantize things.
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// So technically, we're stateful, but let's pretend we're not changing
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// state. In the context this is used, it is never accessed in multiple
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// threads.
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virtual void EditColsRows(int *cols, int *rows) const {
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panel_rows_ = *rows;
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panel_cols_ = *cols;
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*rows /= panel_stretch_factor_;
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*cols *= panel_stretch_factor_;
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}
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virtual bool GetSizeMapping(int matrix_width, int matrix_height,
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int *visible_width, int *visible_height) const {
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// Matrix width has been altered. Alter it back.
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*visible_width = matrix_width / panel_stretch_factor_;
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*visible_height = matrix_height * panel_stretch_factor_;
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return true;
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}
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virtual const char *GetName() const { return name_; }
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// The MapVisibleToMatrix() as required by PanelMatrix here breaks it
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// down to the individual panel, so that derived classes only need to
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// implement MapSinglePanel().
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virtual void MapVisibleToMatrix(int matrix_width, int matrix_height,
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int visible_x, int visible_y,
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int *matrix_x, int *matrix_y) const {
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const int chained_panel = visible_x / panel_cols_;
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const int parallel_panel = visible_y / panel_rows_;
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const int within_panel_x = visible_x % panel_cols_;
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const int within_panel_y = visible_y % panel_rows_;
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int new_x, new_y;
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MapSinglePanel(within_panel_x, within_panel_y, &new_x, &new_y);
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*matrix_x = chained_panel * panel_stretch_factor_*panel_cols_ + new_x;
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*matrix_y = parallel_panel * panel_rows_/panel_stretch_factor_ + new_y;
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}
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// Map the coordinates for a single panel. This is to be overridden in
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// derived classes.
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// Input parameter is the visible position on the matrix, and this method
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// should return the internal multiplexed position.
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virtual void MapSinglePanel(int visible_x, int visible_y,
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int *matrix_x, int *matrix_y) const = 0;
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protected:
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const char *const name_;
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const int panel_stretch_factor_;
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mutable int panel_cols_;
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mutable int panel_rows_;
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};
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/* ========================================================================
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* Multiplexer implementations.
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*
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* Extend MultiplexMapperBase and implement MapSinglePanel. You only have
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* to worry about the mapping within a single panel, the overall panel
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* construction with chains and parallel is already taken care of.
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*
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* Don't forget to register the new multiplexer sin CreateMultiplexMapperList()
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* below. After that, the new mapper is available in the --led-multiplexing
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* option.
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*/
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class StripeMultiplexMapper : public MultiplexMapperBase {
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public:
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StripeMultiplexMapper() : MultiplexMapperBase("Stripe", 2) {}
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void MapSinglePanel(int x, int y, int *matrix_x, int *matrix_y) const {
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const bool is_top_stripe = (y % (panel_rows_/2)) < panel_rows_/4;
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*matrix_x = is_top_stripe ? x + panel_cols_ : x;
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*matrix_y = ((y / (panel_rows_/2)) * (panel_rows_/4)
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+ y % (panel_rows_/4));
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}
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};
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class FlippedStripeMultiplexMapper : public MultiplexMapperBase {
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public:
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FlippedStripeMultiplexMapper() : MultiplexMapperBase("FlippedStripe", 2) {}
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void MapSinglePanel(int x, int y, int *matrix_x, int *matrix_y) const {
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const bool is_top_stripe = (y % (panel_rows_/2)) >= panel_rows_/4;
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*matrix_x = is_top_stripe ? x + panel_cols_ : x;
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*matrix_y = ((y / (panel_rows_/2)) * (panel_rows_/4)
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+ y % (panel_rows_/4));
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}
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};
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class CheckeredMultiplexMapper : public MultiplexMapperBase {
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public:
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CheckeredMultiplexMapper() : MultiplexMapperBase("Checkered", 2) {}
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void MapSinglePanel(int x, int y, int *matrix_x, int *matrix_y) const {
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const bool is_top_check = (y % (panel_rows_/2)) < panel_rows_/4;
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const bool is_left_check = (x < panel_cols_/2);
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if (is_top_check) {
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*matrix_x = is_left_check ? x+panel_cols_/2 : x+panel_cols_;
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} else {
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*matrix_x = is_left_check ? x : x + panel_cols_/2;
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}
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*matrix_y = ((y / (panel_rows_/2)) * (panel_rows_/4)
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+ y % (panel_rows_/4));
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}
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};
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class SpiralMultiplexMapper : public MultiplexMapperBase {
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public:
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SpiralMultiplexMapper() : MultiplexMapperBase("Spiral", 2) {}
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void MapSinglePanel(int x, int y, int *matrix_x, int *matrix_y) const {
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const bool is_top_stripe = (y % (panel_rows_/2)) < panel_rows_/4;
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const int panel_quarter = panel_cols_/4;
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const int quarter = x / panel_quarter;
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const int offset = x % panel_quarter;
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*matrix_x = ((2*quarter*panel_quarter)
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+ (is_top_stripe
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? panel_quarter - 1 - offset
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: panel_quarter + offset));
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*matrix_y = ((y / (panel_rows_/2)) * (panel_rows_/4)
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+ y % (panel_rows_/4));
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}
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};
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class ZStripeMultiplexMapper : public MultiplexMapperBase {
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public:
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ZStripeMultiplexMapper(const char *name, int even_vblock_offset, int odd_vblock_offset)
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: MultiplexMapperBase(name, 2),
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even_vblock_offset_(even_vblock_offset),
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odd_vblock_offset_(odd_vblock_offset) {}
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void MapSinglePanel(int x, int y, int *matrix_x, int *matrix_y) const {
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static const int tile_width = 8;
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static const int tile_height = 4;
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const int vert_block_is_odd = ((y / tile_height) % 2);
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const int even_vblock_shift = (1 - vert_block_is_odd) * even_vblock_offset_;
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const int odd_vblock_shitf = vert_block_is_odd * odd_vblock_offset_;
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*matrix_x = x + ((x + even_vblock_shift) / tile_width) * tile_width + odd_vblock_shitf;
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*matrix_y = (y % tile_height) + tile_height * (y / (tile_height * 2));
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}
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private:
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const int even_vblock_offset_;
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const int odd_vblock_offset_;
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};
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class CoremanMapper : public MultiplexMapperBase {
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public:
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CoremanMapper() : MultiplexMapperBase("coreman", 2) {}
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void MapSinglePanel(int x, int y, int *matrix_x, int *matrix_y) const {
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const bool is_left_check = (x < panel_cols_/2);
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if ((y <= 7) || ((y >= 16) && (y <= 23))){
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*matrix_x = ((x / (panel_cols_/2)) * panel_cols_) + (x % (panel_cols_/2));
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if ((y & (panel_rows_/4)) == 0) {
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*matrix_y = (y / (panel_rows_/2)) * (panel_rows_/4) + (y % (panel_rows_/4));
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}
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} else {
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*matrix_x = is_left_check ? x + panel_cols_/2 : x + panel_cols_;
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*matrix_y = (y / (panel_rows_/2)) * (panel_rows_/4) + y % (panel_rows_/4);
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}
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}
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};
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class Kaler2ScanMapper : public MultiplexMapperBase {
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public:
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Kaler2ScanMapper() : MultiplexMapperBase("Kaler2Scan", 4) {}
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void MapSinglePanel(int x, int y, int *matrix_x, int *matrix_y) const {
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// Now we have a 128x4 matrix
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int offset = ((y%4)/2) == 0 ? -1 : 1;// Add o substract
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int deltaOffset = offset < 0 ? 7:8;
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int deltaColumn = ((y%8)/4)== 0 ? 64 : 0;
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*matrix_y = (y%2+(y/8)*2);
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*matrix_x = deltaColumn + (16 * (x/8)) + deltaOffset + ((x%8) * offset);
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}
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};
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class P10MapperZ : public MultiplexMapperBase {
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public:
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P10MapperZ() : MultiplexMapperBase("P10-128x4-Z", 4) {}
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// supports this panel: https://www.aliexpress.com/item/2017-Special-Offer-P10-Outdoor-Smd-Full-Color-Led-Display-Module-320x160mm-1-2-Scan-Outdoor/32809267439.html?spm=a2g0s.9042311.0.0.Ob0jEw
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// with --led-row-addr-type=2 flag
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void MapSinglePanel(int x, int y, int *matrix_x, int *matrix_y) const {
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int yComp = 0;
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if (y == 0 || y == 1 || y == 8 || y == 9) {
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yComp = 127;
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}
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else if (y == 2 || y == 3 || y == 10 || y == 11) {
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yComp = 112;
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}
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else if (y == 4 || y == 5 || y == 12 || y == 13) {
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yComp = 111;
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}
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else if (y == 6 || y == 7 || y == 14 || y == 15) {
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yComp = 96;
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}
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if (y == 0 || y == 1 || y == 4 || y == 5 ||
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y == 8 || y == 9 || y == 12 || y == 13) {
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*matrix_x = yComp - x;
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*matrix_x -= (24 * ((int)(x / 8)));
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}
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else {
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*matrix_x = yComp + x;
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*matrix_x -= (40 * ((int)(x / 8)));
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}
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if (y == 0 || y == 2 || y == 4 || y == 6) {
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*matrix_y = 3;
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}
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else if (y == 1 || y == 3 || y == 5 || y == 7) {
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*matrix_y = 2;
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}
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else if (y == 8 || y == 10 || y == 12 || y == 14) {
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*matrix_y = 1;
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}
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else if (y == 9 || y == 11 || y == 13 || y == 15) {
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*matrix_y = 0;
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}
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}
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};
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class QiangLiQ8 : public MultiplexMapperBase {
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public:
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QiangLiQ8() : MultiplexMapperBase("QiangLiQ8", 2) {}
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void MapSinglePanel(int x, int y, int *matrix_x, int *matrix_y) const {
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const int column = x + (4+ 4*(x/4));
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*matrix_x = column;
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if ((y >= 15 && y <=19) || (y >= 5 && y <= 9)) {
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const int reverseColumn = x + (4*(x/4));
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*matrix_x = reverseColumn;
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}
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*matrix_y = y % 5 + (y/10) *5;
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}
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};
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class InversedZStripe : public MultiplexMapperBase {
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public:
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InversedZStripe() : MultiplexMapperBase("InversedZStripe", 2) {}
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void MapSinglePanel(int x, int y, int *matrix_x, int *matrix_y) const {
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static const int tile_width = 8;
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static const int tile_height = 4;
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const int vert_block_is_odd = ((y / tile_height) % 2);
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const int evenOffset[8] = {7, 5, 3, 1, -1, -3, -5, -7};
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if (vert_block_is_odd) {
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*matrix_x = x + (x / tile_width) * tile_width;
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} else {
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*matrix_x = x + (x / tile_width) * tile_width + 8 + evenOffset[x % 8];
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}
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*matrix_y = (y % tile_height) + tile_height * (y / (tile_height * 2));
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}
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};
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/*
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* Vairous P10 1R1G1B Outdoor implementations for 16x16 modules with separate
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* RGB LEDs, e.g.:
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* https://www.ledcontrollercard.com/english/p10-outdoor-rgb-led-module-160x160mm-dip.html
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*
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*/
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class P10Outdoor1R1G1BMultiplexBase : public MultiplexMapperBase {
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public:
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P10Outdoor1R1G1BMultiplexBase(const char *name)
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: MultiplexMapperBase(name, 2) {}
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void MapSinglePanel(int x, int y, int *matrix_x, int *matrix_y) const {
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const int vblock_is_odd = (y / tile_height_) % 2;
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const int vblock_is_even = 1 - vblock_is_odd;
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const int even_vblock_shift = vblock_is_even * even_vblock_offset_;
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const int odd_vblock_shift = vblock_is_odd * odd_vblock_offset_;
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MapPanel(x, y, matrix_x, matrix_y,
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vblock_is_even, vblock_is_odd,
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even_vblock_shift, odd_vblock_shift);
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}
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protected:
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virtual void MapPanel(int x, int y, int *matrix_x, int *matrix_y,
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int vblock_is_even, int vblock_is_odd,
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int even_vblock_shift, int odd_vblock_shift) const = 0;
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static const int tile_width_ = 8;
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static const int tile_height_ = 4;
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static const int even_vblock_offset_ = 0;
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static const int odd_vblock_offset_ = 8;
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};
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class P10Outdoor1R1G1BMultiplexMapper1 : public P10Outdoor1R1G1BMultiplexBase {
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public:
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P10Outdoor1R1G1BMultiplexMapper1()
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: P10Outdoor1R1G1BMultiplexBase("P10Outdoor1R1G1-1") {}
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protected:
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void MapPanel(int x, int y, int *matrix_x, int *matrix_y,
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const int vblock_is_even, const int vblock_is_odd,
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const int even_vblock_shift, const int odd_vblock_shift) const {
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*matrix_x = tile_width_ * (1 + vblock_is_even + 2 * (x / tile_width_))
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- (x % tile_width_) - 1;
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*matrix_y = (y % tile_height_) + tile_height_ * (y / (tile_height_ * 2));
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}
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};
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class P10Outdoor1R1G1BMultiplexMapper2 : public P10Outdoor1R1G1BMultiplexBase {
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public:
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P10Outdoor1R1G1BMultiplexMapper2()
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: P10Outdoor1R1G1BMultiplexBase("P10Outdoor1R1G1-2") {}
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protected:
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void MapPanel(int x, int y, int *matrix_x, int *matrix_y,
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const int vblock_is_even, const int vblock_is_odd,
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const int even_vblock_shift, const int odd_vblock_shift) const {
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*matrix_x = vblock_is_even
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? tile_width_ * (1 + 2 * (x / tile_width_)) - (x % tile_width_) - 1
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: x + ((x + even_vblock_shift) / tile_width_) * tile_width_ + odd_vblock_shift;
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*matrix_y = (y % tile_height_) + tile_height_ * (y / (tile_height_ * 2));
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}
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};
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class P10Outdoor1R1G1BMultiplexMapper3 : public P10Outdoor1R1G1BMultiplexBase {
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public:
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P10Outdoor1R1G1BMultiplexMapper3()
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: P10Outdoor1R1G1BMultiplexBase("P10Outdoor1R1G1-3") {}
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protected:
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void MapPanel(int x, int y, int *matrix_x, int *matrix_y,
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const int vblock_is_even, const int vblock_is_odd,
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const int even_vblock_shift, const int odd_vblock_shift) const {
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*matrix_x = vblock_is_odd
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? tile_width_ * (2 + 2 * (x / tile_width_)) - (x % tile_width_) - 1
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: x + ((x + even_vblock_shift) / tile_width_) * tile_width_ + odd_vblock_shift;
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*matrix_y = (y % tile_height_) + tile_height_ * (y / (tile_height_ * 2));
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}
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};
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class P10CoremanMapper : public MultiplexMapperBase {
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public:
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P10CoremanMapper() : MultiplexMapperBase("P10CoremanMapper", 4) {}
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void MapSinglePanel(int x, int y, int *matrix_x, int *matrix_y) const {
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//Row offset 8,8,8,8,0,0,0,0,8,8,8,8,0,0,0,0
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int mulY = (y & 4) > 0 ? 0 : 8;
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//Row offset 9,9,8,8,1,1,0,0,9,9,8,8,1,1,0,0
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mulY += (y & 2) > 0 ? 0 : 1;
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mulY += (x >> 2) & ~1; //Drop lsb
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*matrix_x = (mulY << 3) + x % 8;
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*matrix_y = (y & 1) + ((y >> 2) & ~1);
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}
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};
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/*
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* P8 1R1G1B Outdoor P8-5S-V3.2-HX 20x40
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*/
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class P8Outdoor1R1G1BMultiplexBase : public MultiplexMapperBase {
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public:
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P8Outdoor1R1G1BMultiplexBase(const char *name)
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: MultiplexMapperBase(name, 2) {}
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void MapSinglePanel(int x, int y, int *matrix_x, int *matrix_y) const {
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const int vblock_is_odd = (y / tile_height_) % 2;
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const int vblock_is_even = 1 - vblock_is_odd;
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const int even_vblock_shift = vblock_is_even * even_vblock_offset_;
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const int odd_vblock_shift = vblock_is_odd * odd_vblock_offset_;
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MapPanel(x, y, matrix_x, matrix_y,
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vblock_is_even, vblock_is_odd,
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even_vblock_shift, odd_vblock_shift);
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}
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protected:
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virtual void MapPanel(int x, int y, int *matrix_x, int *matrix_y,
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int vblock_is_even, int vblock_is_odd,
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int even_vblock_shift, int odd_vblock_shift) const = 0;
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static const int tile_width_ = 8;
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static const int tile_height_ = 5;
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static const int even_vblock_offset_ = 0;
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static const int odd_vblock_offset_ = 8;
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};
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class P8Outdoor1R1G1BMultiplexMapper : public P8Outdoor1R1G1BMultiplexBase {
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public:
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P8Outdoor1R1G1BMultiplexMapper()
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: P8Outdoor1R1G1BMultiplexBase("P8Outdoor1R1G1") {}
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protected:
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void MapPanel(int x, int y, int *matrix_x, int *matrix_y,
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const int vblock_is_even, const int vblock_is_odd,
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const int even_vblock_shift, const int odd_vblock_shift) const {
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*matrix_x = vblock_is_even
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? tile_width_ * (1 + tile_width_ - 2 * (x / tile_width_)) + tile_width_ - (x % tile_width_) - 1
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: tile_width_ * (1 + tile_width_ - 2 * (x / tile_width_)) - tile_width_ + (x % tile_width_);
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*matrix_y = (tile_height_ - y % tile_height_) + tile_height_ * (1 - y / (tile_height_ * 2)) -1;
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}
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};
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class P10Outdoor32x16HalfScanMapper : public MultiplexMapperBase {
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public:
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P10Outdoor32x16HalfScanMapper() : MultiplexMapperBase("P10Outdoor32x16HalfScan", 4) {}
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void MapSinglePanel(int x, int y, int *matrix_x, int *matrix_y) const {
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int base = (x/8)*32;
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bool reverse = (y%4)/2 == 0;
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int offset = (3-((y%8)/2))*8;
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int dx = x%8;
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*matrix_y = (y/8 == 0) ? ((y%2 == 0) ? 0:1) : ((y%2 == 0) ? 2:3);
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*matrix_x = base + (reverse ? offset + (7-dx) : offset + dx);
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}
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};
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/*
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* Here is where the registration happens.
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* If you add an instance of the mapper here, it will automatically be
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* made available in the --led-multiplexing commandline option.
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*/
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static MuxMapperList *CreateMultiplexMapperList() {
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MuxMapperList *result = new MuxMapperList();
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// Here, register all multiplex mappers from above.
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result->push_back(new StripeMultiplexMapper());
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result->push_back(new CheckeredMultiplexMapper());
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result->push_back(new SpiralMultiplexMapper());
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result->push_back(new ZStripeMultiplexMapper("ZStripe", 0, 8));
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result->push_back(new ZStripeMultiplexMapper("ZnMirrorZStripe", 4, 4));
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result->push_back(new CoremanMapper());
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result->push_back(new Kaler2ScanMapper());
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result->push_back(new ZStripeMultiplexMapper("ZStripeUneven", 8, 0));
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result->push_back(new P10MapperZ());
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result->push_back(new QiangLiQ8());
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result->push_back(new InversedZStripe());
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result->push_back(new P10Outdoor1R1G1BMultiplexMapper1());
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result->push_back(new P10Outdoor1R1G1BMultiplexMapper2());
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result->push_back(new P10Outdoor1R1G1BMultiplexMapper3());
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result->push_back(new P10CoremanMapper());
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result->push_back(new P8Outdoor1R1G1BMultiplexMapper());
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result->push_back(new FlippedStripeMultiplexMapper());
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result->push_back(new P10Outdoor32x16HalfScanMapper());
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return result;
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}
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const MuxMapperList &GetRegisteredMultiplexMappers() {
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static const MuxMapperList *all_mappers = CreateMultiplexMapperList();
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return *all_mappers;
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}
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} // namespace internal
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} // namespace rgb_matrix
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