/* * aptdec - A lightweight FOSS (NOAA) APT decoder * Copyright (C) 2004-2009 Thierry Leconte (F4DWV) 2019-2023 Xerbo (xerbo@protonmail.com) * Copyright (C) 2021 Jon Beniston (M7RCE) * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef APTDEC_H_ #define APTDEC_H_ #include #include #ifdef __cplusplus extern "C" { #endif #if defined(__GNUC__) && (__GNUC__ >= 4) # define APTDEC_API __attribute__((visibility("default"))) #elif defined(_MSC_VER) # ifdef APTDEC_API_EXPORT # define APTDEC_API __declspec(dllexport) # else # define APTDEC_API __declspec(dllimport) # endif #else # define APTDEC_API #endif // Height of a single telemetry wedge #define APT_WEDGE_HEIGHT 8 // Numbers of wedges in a frame #define APT_FRAME_WEDGES 16 // Height of a telemetry frame #define APT_FRAME_LEN (APT_WEDGE_HEIGHT * APT_FRAME_WEDGES) // Width of the overall image #define APT_IMG_WIDTH 2080 // Width of sync marker #define APT_SYNC_WIDTH 39 // Width of space view #define APT_SPC_WIDTH 47 // Width of telemetry #define APT_TELEMETRY_WIDTH 45 // Width of a single video channel #define APT_CH_WIDTH 909 // Offset to channel A video data #define APT_CHA_OFFSET (APT_SYNC_WIDTH + APT_SPC_WIDTH) // Offset to channel B video data #define APT_CHB_OFFSET (APT_SYNC_WIDTH + APT_SPC_WIDTH + APT_CH_WIDTH + APT_TELEMETRY_WIDTH + APT_SYNC_WIDTH + APT_SPC_WIDTH) // Number of rows needed for apt_normalize to (reliably) work #define APTDEC_NORMALIZE_ROWS (APT_FRAME_LEN * 2) // Channel 1: visible (0.58-0.68 um) // Channel 2: near-IR (0.725-1.0 um) // Channel 3A: near-IR (1.58-1.64 um) // Channel 3B: mid-infrared (3.55-3.93 um) // Channel 4: thermal-infrared (10.3-11.3 um) // Channel 5: thermal-infrared (11.5-12.5 um) typedef enum apt_channel { AVHRR_CHANNEL_UNKNOWN, AVHRR_CHANNEL_1, AVHRR_CHANNEL_2, AVHRR_CHANNEL_3A, AVHRR_CHANNEL_4, AVHRR_CHANNEL_5, AVHRR_CHANNEL_3B } avhrr_channel_t; typedef enum apt_satellite { NOAA15, NOAA18, NOAA19 } apt_satellite_t; typedef struct { uint8_t *data; // Image data size_t rows; // Number of rows // Telemetry apt_satellite_t satellite; avhrr_channel_t ch[2]; float space_view[2]; float telemetry[2][16]; } apt_image_t; typedef struct { uint8_t r, g, b; } apt_rgb_t; typedef struct { size_t offset; size_t width; } apt_region_t; typedef struct aptdec_t aptdec_t; // Callback function to get samples // `context` is the same as passed to aptdec_getrow typedef size_t (*aptdec_callback_t)(float *samples, size_t count, void *context); // Clone an apt_image_t struct // Useful for calibration apt_image_t apt_image_clone(apt_image_t img); // Returns version of libaptdec in git tag format // i.e. v2.0.0 or v2.0.0-1-xxxxxx APTDEC_API char *aptdec_get_version(void); // Create and destroy libaptdec instances // If aptdec_init fails it will return NULL APTDEC_API aptdec_t *aptdec_init(float sample_rate); APTDEC_API void aptdec_free(aptdec_t *apt); // Normalize and quantize raw image data // Data is arranged so that each row starts at APT_IMG_WIDTH*y APTDEC_API apt_image_t apt_normalize(const float *data, size_t rows, apt_satellite_t satellite, int *error); // Get an entire row of pixels // Requires that `row` has enough space to store APT_IMG_WIDTH*2 // Returns 0 when `callback` return value != count APTDEC_API int aptdec_getrow(aptdec_t *apt, float *row, aptdec_callback_t callback, void *context); // Calibrate channels APTDEC_API int apt_calibrate_thermal(apt_image_t *img, apt_region_t region); APTDEC_API int apt_calibrate_visible(apt_image_t *img, apt_region_t region); APTDEC_API void apt_denoise (apt_image_t *img, apt_region_t region); APTDEC_API void apt_flip (apt_image_t *img, apt_region_t region); APTDEC_API void apt_stretch (apt_image_t *img, apt_region_t region); APTDEC_API void apt_equalize(apt_image_t *img, apt_region_t region); APTDEC_API int apt_crop (apt_image_t *img); // Composite two RGB values as layers, in most cases bottom_a will be 1.0f APTDEC_API apt_rgb_t apt_composite_rgb(apt_rgb_t top, float top_a, apt_rgb_t bottom, float bottom_a); // Apply a gradient such as temperature_gradient // If gradient is less than 256 elements it is the callers responsibility // that `val` does not exceed the length of the gradient APTDEC_API apt_rgb_t apt_gradient(const uint32_t *gradient, uint8_t val); static const apt_region_t APT_REGION_CHA = { APT_CHA_OFFSET, APT_CH_WIDTH }; static const apt_region_t APT_REGION_CHB = { APT_CHB_OFFSET, APT_CH_WIDTH }; static const apt_region_t APT_REGION_CHA_FULL = { 0, APT_IMG_WIDTH/2 }; static const apt_region_t APT_REGION_CHB_FULL = { APT_IMG_WIDTH/2, APT_IMG_WIDTH/2 }; static const apt_region_t APT_REGION_FULL = { 0, APT_IMG_WIDTH }; extern const uint32_t temperature_gradient[256]; extern const uint32_t precipitation_gradient[58]; #ifdef __cplusplus } #endif #endif