just test gamma correction algorithm
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c527835ff6
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@ -44,7 +44,7 @@ module ColorBlender #(
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always @(*) begin
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case (state)
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READ_DATA: nextState = (in_en) ? (color_correction ? CALC_DATA : SEND_DATA) : READ_DATA;
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READ_DATA: nextState = (in_en) ? CALC_DATA : READ_DATA;
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CALC_DATA: nextState = SATI_DATA;
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SATI_DATA: nextState = SEND_DATA;
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SEND_DATA: nextState = (in_receive) ? READ_DATA : SEND_DATA;
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@ -75,9 +75,16 @@ module ColorBlender #(
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end
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CALC_DATA: begin
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data_cal[0] <= (data_cal[0] * {{(BUFF_SIZE - 16){1'b0}}, gain_red}) >> 16;
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data_cal[1] <= (data_cal[1] * {{(BUFF_SIZE - 16){1'b0}}, gain_green}) >> 16;
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data_cal[2] <= (data_cal[2] * {{(BUFF_SIZE - 16){1'b0}}, gain_blue}) >> 16;
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if (color_correction) begin
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data_cal[0] <= (data_cal[0] * {{(BUFF_SIZE - 16){1'b0}}, gain_red}) >> 16;
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data_cal[1] <= (data_cal[1] * {{(BUFF_SIZE - 16){1'b0}}, gain_green}) >> 16;
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data_cal[2] <= (data_cal[2] * {{(BUFF_SIZE - 16){1'b0}}, gain_blue}) >> 16;
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end
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else begin
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data_cal[0] <= data_cal[0] >> 8;
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data_cal[1] <= data_cal[1] >> 8;
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data_cal[2] <= data_cal[2] >> 8;
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end
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end
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SATI_DATA: begin
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@ -0,0 +1,53 @@
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`timescale 1ns / 1ps
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module GammaCorrection #(
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parameter reg [4:0] COLOR_DEPTH = 8
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) (
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input wire clk,
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input wire reset,
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input wire in_en,
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input wire [COLOR_DEPTH - 1 : 0] in_data [3],
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output wire out_ready,
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output wire out_receive,
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output reg out_en,
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output reg [COLOR_DEPTH - 1 : 0] out_data [3],
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input wire in_ready,
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input wire in_receive,
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input wire [8:0] gamma
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);
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reg [2:0] state, nextState;
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localparam reg [2:0] READ_DATA = 0;
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localparam reg [2:0] CALC_DATA = 1;
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localparam reg [2:0] SEND_DATA = 2;
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reg [15:0] data_cal[3];
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always @(posedge clk or posedge reset) begin
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if (reset) state <= READ_DATA;
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else state <= nextState;
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end
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always @(*) begin
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case (state)
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READ_DATA: nextState = in_en ? CALC_DATA : READ_DATA;
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CALC_DATA: nextState = SEND_DATA;
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SEND_DATA: nextState = in_receive ? READ_DATA : SEND_DATA;
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default: nextState = READ_DATA;
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endcase
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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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out_en <= 0;
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out_data <= 0;
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end
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else begin
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end
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end
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endmodule
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4
isp.v
4
isp.v
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@ -24,11 +24,11 @@ module isp #(
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input wire in_ready,
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input wire in_receive,
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// 是否启动颜色矫正
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// 颜色校正,低八位为小数位,高八位为整数位
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input wire [15:0] gain_red,
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input wire [15:0] gain_green,
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input wire [15:0] gain_blue,
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input wire color_correction
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input wire color_correction // 是否启用颜色校正
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);
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localparam reg [15:0] BAYER_WIDTH = IN_WIDTH - 2;
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localparam reg [15:0] BAYER_HEIGHT = IN_HEIGHT - 2;
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@ -56,7 +56,7 @@ VERILATOR_FLAGS += --threads 14
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TOP_MODULE = isp
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VERILATOR_FLAGS += -top $(TOP_MODULE)
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# Input files for Verilator
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VERILATOR_INPUT = ../isp.v *.cpp ../Demosaic/Demosaic2.v ../Crop/*.v ../ColorBlender/*.v ../RAM/*.v
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VERILATOR_INPUT = ../isp.v *.cpp ../Demosaic/Demosaic2.v ../Crop/*.v ../Color/*.v ../RAM/*.v
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# Check if SC exists via a verilator call (empty if not)
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SYSTEMC_EXISTS := $(shell $(VERILATOR) --get-supported SYSTEMC)
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@ -28,15 +28,15 @@ static const uint16_t OUT_WIDTH = 1920;
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static const uint16_t OUT_HEIGHT = 1080;
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#define OUT_SIZE (OUT_WIDTH * OUT_HEIGHT)
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struct color_gain
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{
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// color gain for correcting color
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struct color_gain {
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double red;
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double green;
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double blue;
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}color_gain {1.0, 0.5, 1.1};
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} color_gain{1.3, 0.8, 1.3};
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static const double gamma_value = 2.2;
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using namespace std;
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using namespace sc_core;
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using namespace sc_dt;
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@ -56,8 +56,8 @@ SC_MODULE(TB_ISP) {
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sc_in<uint32_t> im_data;
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sc_out<bool> is_done;
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unique_ptr<uint16_t[]> image = make_unique<uint16_t[]>(IN_SIZE);
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unique_ptr<uint32_t[]> out = make_unique<uint32_t[]>(OUT_SIZE);
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std::unique_ptr<uint16_t[]> image = std::make_unique<uint16_t[]>(IN_SIZE);
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std::unique_ptr<uint32_t[]> out = std::make_unique<uint32_t[]>(OUT_SIZE);
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SC_CTOR(TB_ISP) {
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SC_CTHREAD(send_Data, clk.pos());
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@ -137,25 +137,25 @@ SC_MODULE(TB_ISP) {
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};
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int sc_main(int argc, char* argv[]) {
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cout << "Get into sc_main" << endl;
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std::cout << "Get into sc_main" << std::endl;
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// Open image
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ifstream in_image;
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ofstream out_image;
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in_image.open("./transform/test.bin", ios::in | ios::binary);
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out_image.open("./transform/out.bin", ios::out | ios::binary);
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std::ifstream in_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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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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cout << "Open image fail" << endl;
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std::cout << "Open image fail" << std::endl;
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exit(0);
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} else {
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cout << "Ready to sim" << endl;
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std::cout << "Ready to sim" << std::endl;
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}
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// Read image
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auto buf = make_unique<uint8_t[]>(2 * IN_SIZE);
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auto buf = std::make_unique<uint8_t[]>(2 * IN_SIZE);
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in_image.read((char*)buf.get(), IN_SIZE * 2);
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in_image.close();
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// Reshape data
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auto image = make_unique<uint16_t[]>(IN_SIZE);
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auto image = std::make_unique<uint16_t[]>(IN_SIZE);
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uint32_t i = 0;
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for (int y = 0; y < IN_HEIGHT; y++) {
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for (int x = 0; x < IN_WIDTH; x++) {
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@ -164,7 +164,7 @@ int sc_main(int argc, char* argv[]) {
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i += 2;
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}
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}
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cout << "Finish Reading data" << endl;
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std::cout << "Finish Reading data" << std::endl;
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// This is a more complicated example, please also see the simpler
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// examples/make_hello_c.
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}
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// Save output image
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cout << "Ready to save raw RGB image" << endl;
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std::cout << "Ready to save raw RGB image" << std::endl;
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// for (int y = 0; y < OUT_HEIGHT; y++)
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// for(int x = 0; x < OUT_WIDTH; x++)
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// out_image.write((const char *)&tb_isp.out[y * OUT_WIDTH + x],
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@ -324,6 +324,10 @@ int sc_main(int argc, char* argv[]) {
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uint8_t green = (tb_isp.out[y * OUT_WIDTH + x] & 0x0000ff00) >> 8;
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uint8_t blue = (tb_isp.out[y * OUT_WIDTH + x] & 0x000000ff);
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// red = 255 * std::pow(red / 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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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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}
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}
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// for (int i = 0; i < OUT_WIDTH * OUT_HEIGHT * 3; i += 3) {
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// data[i + 0] = std::min(255, static_cast<int>(data[i + 0] *
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// red_gain)); data[i + 1] = std::min(255, static_cast<int>(data[i + 1]
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// * green_gain)); data[i + 2] = std::min(255, static_cast<int>(data[i +
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// 2] * blue_gain));
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// }
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write_bmp("test.bmp", data, OUT_WIDTH, OUT_HEIGHT);
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delete[] data;
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