mirror of
https://github.com/Keychron/qmk_firmware.git
synced 2024-11-22 00:16:41 +06:00
c98247e3dd
* RGB Matrix overhaul Breakout of animations to separate files Integration of optimized int based math lib Overhaul of rgb_matrix.c and animations for performance * Updating effect function api for future extensions * Combined the keypresses || keyreleases define checks into a single define so I stop forgetting it where necessary * Moving define RGB_MATRIX_KEYREACTIVE_ENABLED earlier in the include chain
243 lines
6.3 KiB
C
243 lines
6.3 KiB
C
#define FASTLED_INTERNAL
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#include <stdint.h>
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#define RAND16_SEED 1337
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uint16_t rand16seed = RAND16_SEED;
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// memset8, memcpy8, memmove8:
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// optimized avr replacements for the standard "C" library
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// routines memset, memcpy, and memmove.
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//
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// There are two techniques that make these routines
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// faster than the standard avr-libc routines.
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// First, the loops are unrolled 2X, meaning that
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// the average loop overhead is cut in half.
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// And second, the compare-and-branch at the bottom
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// of each loop decrements the low byte of the
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// counter, and if the carry is clear, it branches
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// back up immediately. Only if the low byte math
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// causes carry do we bother to decrement the high
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// byte and check that result for carry as well.
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// Results for a 100-byte buffer are 20-40% faster
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// than standard avr-libc, at a cost of a few extra
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// bytes of code.
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#if defined(__AVR__)
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//__attribute__ ((noinline))
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void * memset8 ( void * ptr, uint8_t val, uint16_t num )
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{
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asm volatile(
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" movw r26, %[ptr] \n\t"
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" sbrs %A[num], 0 \n\t"
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" rjmp Lseteven_%= \n\t"
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" rjmp Lsetodd_%= \n\t"
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"Lsetloop_%=: \n\t"
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" st X+, %[val] \n\t"
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"Lsetodd_%=: \n\t"
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" st X+, %[val] \n\t"
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"Lseteven_%=: \n\t"
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" subi %A[num], 2 \n\t"
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" brcc Lsetloop_%= \n\t"
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" sbci %B[num], 0 \n\t"
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" brcc Lsetloop_%= \n\t"
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: [num] "+r" (num)
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: [ptr] "r" (ptr),
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[val] "r" (val)
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: "memory"
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);
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return ptr;
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}
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//__attribute__ ((noinline))
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void * memcpy8 ( void * dst, const void* src, uint16_t num )
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{
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asm volatile(
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" movw r30, %[src] \n\t"
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" movw r26, %[dst] \n\t"
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" sbrs %A[num], 0 \n\t"
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" rjmp Lcpyeven_%= \n\t"
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" rjmp Lcpyodd_%= \n\t"
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"Lcpyloop_%=: \n\t"
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" ld __tmp_reg__, Z+ \n\t"
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" st X+, __tmp_reg__ \n\t"
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"Lcpyodd_%=: \n\t"
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" ld __tmp_reg__, Z+ \n\t"
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" st X+, __tmp_reg__ \n\t"
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"Lcpyeven_%=: \n\t"
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" subi %A[num], 2 \n\t"
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" brcc Lcpyloop_%= \n\t"
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" sbci %B[num], 0 \n\t"
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" brcc Lcpyloop_%= \n\t"
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: [num] "+r" (num)
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: [src] "r" (src),
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[dst] "r" (dst)
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: "memory"
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);
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return dst;
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}
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//__attribute__ ((noinline))
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void * memmove8 ( void * dst, const void* src, uint16_t num )
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{
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if( src > dst) {
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// if src > dst then we can use the forward-stepping memcpy8
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return memcpy8( dst, src, num);
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} else {
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// if src < dst then we have to step backward:
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dst = (char*)dst + num;
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src = (char*)src + num;
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asm volatile(
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" movw r30, %[src] \n\t"
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" movw r26, %[dst] \n\t"
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" sbrs %A[num], 0 \n\t"
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" rjmp Lmoveven_%= \n\t"
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" rjmp Lmovodd_%= \n\t"
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"Lmovloop_%=: \n\t"
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" ld __tmp_reg__, -Z \n\t"
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" st -X, __tmp_reg__ \n\t"
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"Lmovodd_%=: \n\t"
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" ld __tmp_reg__, -Z \n\t"
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" st -X, __tmp_reg__ \n\t"
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"Lmoveven_%=: \n\t"
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" subi %A[num], 2 \n\t"
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" brcc Lmovloop_%= \n\t"
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" sbci %B[num], 0 \n\t"
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" brcc Lmovloop_%= \n\t"
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: [num] "+r" (num)
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: [src] "r" (src),
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[dst] "r" (dst)
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: "memory"
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);
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return dst;
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}
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}
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#endif /* AVR */
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#if 0
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// TEST / VERIFICATION CODE ONLY BELOW THIS POINT
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#include <Arduino.h>
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#include "lib8tion.h"
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void test1abs( int8_t i)
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{
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Serial.print("abs("); Serial.print(i); Serial.print(") = ");
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int8_t j = abs8(i);
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Serial.print(j); Serial.println(" ");
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}
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void testabs()
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{
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delay(5000);
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for( int8_t q = -128; q != 127; q++) {
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test1abs(q);
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}
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for(;;){};
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}
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void testmul8()
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{
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delay(5000);
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byte r, c;
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Serial.println("mul8:");
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for( r = 0; r <= 20; r += 1) {
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Serial.print(r); Serial.print(" : ");
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for( c = 0; c <= 20; c += 1) {
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byte t;
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t = mul8( r, c);
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Serial.print(t); Serial.print(' ');
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}
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Serial.println(' ');
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}
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Serial.println("done.");
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for(;;){};
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}
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void testscale8()
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{
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delay(5000);
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byte r, c;
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Serial.println("scale8:");
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for( r = 0; r <= 240; r += 10) {
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Serial.print(r); Serial.print(" : ");
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for( c = 0; c <= 240; c += 10) {
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byte t;
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t = scale8( r, c);
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Serial.print(t); Serial.print(' ');
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}
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Serial.println(' ');
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}
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Serial.println(' ');
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Serial.println("scale8_video:");
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for( r = 0; r <= 100; r += 4) {
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Serial.print(r); Serial.print(" : ");
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for( c = 0; c <= 100; c += 4) {
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byte t;
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t = scale8_video( r, c);
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Serial.print(t); Serial.print(' ');
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}
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Serial.println(' ');
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}
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Serial.println("done.");
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for(;;){};
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}
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void testqadd8()
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{
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delay(5000);
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byte r, c;
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for( r = 0; r <= 240; r += 10) {
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Serial.print(r); Serial.print(" : ");
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for( c = 0; c <= 240; c += 10) {
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byte t;
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t = qadd8( r, c);
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Serial.print(t); Serial.print(' ');
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}
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Serial.println(' ');
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}
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Serial.println("done.");
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for(;;){};
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}
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void testnscale8x3()
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{
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delay(5000);
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byte r, g, b, sc;
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for( byte z = 0; z < 10; z++) {
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r = random8(); g = random8(); b = random8(); sc = random8();
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Serial.print("nscale8x3_video( ");
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Serial.print(r); Serial.print(", ");
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Serial.print(g); Serial.print(", ");
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Serial.print(b); Serial.print(", ");
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Serial.print(sc); Serial.print(") = [ ");
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nscale8x3_video( r, g, b, sc);
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Serial.print(r); Serial.print(", ");
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Serial.print(g); Serial.print(", ");
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Serial.print(b); Serial.print("]");
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Serial.println(' ');
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}
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Serial.println("done.");
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for(;;){};
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}
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#endif
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