create a different width of input and outpud SyncFIFO
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@ -0,0 +1,68 @@
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`timescale 1ns / 1ps
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module DiffWidthSyncFIFO #(
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parameter reg [7:0] DATA_WIDTH = 8,
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parameter reg [7:0] DATA_DEPTH = 12,
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parameter reg [7:0] READ_DEPTH = 3,
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parameter reg [7:0] WRITE_DEPTH = 4
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) (
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input wire clk,
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input wire reset,
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input wire read_ready,
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output reg read_en,
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output reg [DATA_WIDTH * READ_DEPTH - 1 : 0] read_data,
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output reg write_ready,
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input wire write_en,
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input wire [DATA_WIDTH * WRITE_DEPTH - 1 : 0] write_data
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);
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reg [DATA_WIDTH - 1 : 0] data[DATA_DEPTH];
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wire [7:0] occupancy;
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reg [7:0] cnt_read, cnt_write;
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reg [7:0] wi, ri;
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assign occupancy = (cnt_write >= cnt_read)
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? (cnt_write - cnt_read)
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: (cnt_write + DATA_DEPTH - cnt_read);
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// write data to fifo
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always @(posedge clk or posedge reset) begin
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if (reset) begin
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write_ready <= 0;
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cnt_write <= 0;
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end else begin
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if (write_en) begin
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write_ready <= 0;
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for (wi = 0; wi < WRITE_DEPTH; wi = wi + 1) begin
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data[cnt_write] <= write_data[DATA_WIDTH*(wi+1)-1 : wi*DATA_WIDTH];
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if (cnt_write < DATA_DEPTH - 1) cnt_write <= cnt_write + 1;
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else cnt_write <= 0;
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end
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end else begin
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write_ready <= 1;
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end
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end
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end
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always @(posedge clk or posedge reset) begin
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if (reset) begin
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read_data <= 0;
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cnt_read <= 0;
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end else begin
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if (read_ready) begin
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read_en <= 1;
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for (ri = 0; ri < READ_DEPTH; ri = ri + 1) begin
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read_data[DATA_WIDTH*(ri+1)-1:ri*DATA_WIDTH] <= data[cnt_read];
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if (cnt_read < DATA_DEPTH - 1) cnt_read <= cnt_read + 1;
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else cnt_read <= 0;
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end
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end else begin
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read_en <= 0;
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end
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end
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end
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endmodule
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@ -0,0 +1,65 @@
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`timescale 1ns / 1ps
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`include "DiffWidthSyncFIFO.v"
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`default_nettype none
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module tb_DiffWidthSyncFIFO;
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localparam reg [7:0] DATA_WIDTH = 8;
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localparam reg [7:0] DATA_DEPTH = 12;
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localparam reg [7:0] READ_DEPTH = 3;
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localparam reg [7:0] WRITE_DEPTH = 4;
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reg clk;
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reg reset;
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reg write_en;
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reg [DATA_WIDTH * WRITE_DEPTH - 1 : 0] write_data;
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wire read_en, write_ready, read_ready;
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wire [DATA_WIDTH * READ_DEPTH - 1 : 0] read_data;
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DiffWidthSyncFIFO #(
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.DATA_WIDTH (DATA_WIDTH),
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.DATA_DEPTH (DATA_DEPTH),
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.READ_DEPTH (READ_DEPTH),
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.WRITE_DEPTH(WRITE_DEPTH)
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) inst_fifo (
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.clk (clk),
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.reset(reset),
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.read_ready(read_ready),
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.read_en(read_en),
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.read_data(read_data),
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.write_ready(write_ready),
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.write_en(write_en),
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.write_data(write_data)
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);
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localparam CLK_PERIOD = 10;
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always #(CLK_PERIOD / 2) clk = ~clk;
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initial begin
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$dumpfile("tb_DiffWidthSyncFIFO.vcd");
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$dumpvars(0, tb_DiffWidthSyncFIFO);
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end
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assign read_ready = read_en ? 0 : 1;
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initial begin
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clk = 0;
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reset = 0;
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write_en = 0;
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write_data = 0;
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end
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integer i;
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initial begin
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for (i = 0; i < 10; i = i + 1) begin
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end
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$finish(10 * CLK_PERIOD);
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end
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endmodule
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`default_nettype wire
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@ -33,10 +33,11 @@ struct color_gain {
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double red;
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double red;
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double green;
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double green;
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double blue;
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double blue;
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} color_gain{1.1, 0.7, 1.3};
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} color_gain{1.1, 0.7, 1.3}, white_gain;
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static const double gamma_value = 2.2;
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static const double gamma_value = 2.2;
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static const double saturation_inc = 0.5;
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static const double saturation_inc = 0.5;
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static const double white_radio = 0.1;
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using namespace sc_core;
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using namespace sc_core;
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using namespace sc_dt;
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using namespace sc_dt;
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@ -143,7 +144,7 @@ int sc_main(int argc, char* argv[]) {
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std::ifstream in_image;
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std::ifstream in_image;
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std::ofstream out_image;
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std::ofstream out_image;
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in_image.open("./transform/test.bin", std::ios::in | std::ios::binary);
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in_image.open("./transform/test.bin", std::ios::in | std::ios::binary);
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out_image.open("./transform/out.bin", std::ios::out | std::ios::binary);
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// out_image.open("./transform/out.bin", std::ios::out | std::ios::binary);
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if (!in_image.is_open()) {
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if (!in_image.is_open()) {
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std::cout << "Open image fail" << std::endl;
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std::cout << "Open image fail" << std::endl;
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exit(0);
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exit(0);
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@ -336,6 +337,8 @@ int sc_main(int argc, char* argv[]) {
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new uint8_t[OUT_WIDTH * OUT_HEIGHT * 3]; // RGB24格式像素数据
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new uint8_t[OUT_WIDTH * OUT_HEIGHT * 3]; // RGB24格式像素数据
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// software algorthms analyze
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// software algorthms analyze
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uint32_t red_total = 0, green_total = 0, blue_total = 0;
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uint8_t red_max = 0, green_max = 0, blue_max = 0;
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for (int32_t y = 0; y < OUT_HEIGHT; ++y) {
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for (int32_t y = 0; y < OUT_HEIGHT; ++y) {
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for (int32_t x = 0; x < OUT_WIDTH; ++x) {
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for (int32_t x = 0; x < OUT_WIDTH; ++x) {
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int32_t index = (y * OUT_WIDTH + x) * 3;
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int32_t index = (y * OUT_WIDTH + x) * 3;
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@ -349,7 +352,13 @@ int sc_main(int argc, char* argv[]) {
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// green = 255 * std::pow(green / 255.0, 1 / gamma_value);
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// green = 255 * std::pow(green / 255.0, 1 / gamma_value);
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// blue = 255 * std::pow(blue / 255.0, 1 / gamma_value);
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// blue = 255 * std::pow(blue / 255.0, 1 / gamma_value);
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// Adjust white balance
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// Calculate white balance data
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red_max = std::max(red_max, red);
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green_max = std::max(green_max, green);
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blue_max = std::max(blue_max, blue);
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red_total += red;
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green_total += green;
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blue_total += blue;
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// Adjust vibrance
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// Adjust vibrance
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// uint8_t max = std::max({red, green, blue});
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// uint8_t max = std::max({red, green, blue});
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@ -379,7 +388,7 @@ int sc_main(int argc, char* argv[]) {
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// green = static_cast<uchar>(L * 255 +
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// green = static_cast<uchar>(L * 255 +
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// (green - L * 255) * (1 +
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// (green - L * 255) * (1 +
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// alpha));
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// alpha));
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// blue = static_cast<uchar>(L * 255 +
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// blue = static_cast<uchar>(L * 255 +
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// (blue - L * 255) * (1 +
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// (blue - L * 255) * (1 +
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// alpha));
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// alpha));
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// }
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// }
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@ -391,32 +400,47 @@ int sc_main(int argc, char* argv[]) {
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}
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}
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}
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}
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// Save output image
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// Adjust White Balance : Grey World Color Correction
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std::cout << "Ready to save raw RGB image" << std::endl;
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double K = static_cast<double>(red_total + green_total + blue_total) / (3 * OUT_SIZE);
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// for (int y = 0; y < OUT_HEIGHT; y++)
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white_gain.red = static_cast<double>(K * OUT_SIZE) / red_total;
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// for(int x = 0; x < OUT_WIDTH; x++)
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white_gain.green = static_cast<double>(K * OUT_SIZE) / green_total;
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// out_image.write((const char *)&tb_isp.out[y * OUT_WIDTH + x],
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white_gain.blue = static_cast<double>(K * OUT_SIZE) / blue_total;
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// sizeof(tb_isp.out[0]));
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printf("Gain: red = %f, green = %f, blue = %f", white_gain.red,
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// out_image.close();
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white_gain.green, white_gain.blue);
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// save to image
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for (int32_t y = 0; y < OUT_HEIGHT; ++y) {
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for (int32_t y = 0; y < OUT_HEIGHT; ++y) {
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for (int32_t x = 0; x < OUT_WIDTH; ++x) {
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for (int32_t x = 0; x < OUT_WIDTH; ++x) {
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int32_t index = (y * OUT_WIDTH + x) * 3;
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int32_t index = (y * OUT_WIDTH + x) * 3;
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uint8_t red = data[index + 0];
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data[index + 0] =
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uint8_t green = data[index + 1];
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static_cast<uint8_t>(white_gain.red * data[index + 0]);
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uint8_t blue = data[index + 2];
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data[index + 1] =
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static_cast<uint8_t>(white_gain.green * data[index + 1]);
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out_image.write((const char*)&red, sizeof(red));
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data[index + 2] =
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out_image.write((const char*)&green, sizeof(green));
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static_cast<uint8_t>(white_gain.blue * data[index + 2]);
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out_image.write((const char*)&blue, sizeof(blue));
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printf("x=%4d, y=%4d, red=0x%02x, green=0x%02x, blue=0x%02x\n", x,
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y, red, green, blue);
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}
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}
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}
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}
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// save to bin
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std::cout << "Ready to save raw RGB image" << std::endl;
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// for (int32_t y = 0; y < OUT_HEIGHT; ++y) {
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// for (int32_t x = 0; x < OUT_WIDTH; ++x) {
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// int32_t index = (y * OUT_WIDTH + x) * 3;
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// uint8_t red = data[index + 0];
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// uint8_t green = data[index + 1];
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// uint8_t blue = data[index + 2];
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// out_image.write((const char*)&red, sizeof(red));
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// out_image.write((const char*)&green, sizeof(green));
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// out_image.write((const char*)&blue, sizeof(blue));
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// printf("x=%4d, y=%4d, red=0x%02x, green=0x%02x, blue=0x%02x\n",
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// x,
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// y, red, green, blue);
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// }
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// }
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// save to bmp
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write_bmp("test.bmp", data, OUT_WIDTH, OUT_HEIGHT);
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write_bmp("test.bmp", data, OUT_WIDTH, OUT_HEIGHT);
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delete[] data;
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delete[] data;
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