48bcce493f
* Fixed a double free issue when running multiple backends on the CPU, eg: CLIP and the primary backend, as this would result in the *_backend pointers both pointing to the same thing resulting in a segfault when calling the StableDiffusionGGML destructor. * Improve logging to allow for a color switch on the command line interface. Changed the base log_printf function to not bake the log level directly into the log buffer as that information is already passed the logging function via the level parameter and it's easier to add in there than strip it out. * Added a fix for certain SDXL LoRAs that don't seem to follow the expected naming convention, converts over the tensor name during the LoRA model loading. Added some logging of useful LoRA loading information. Had to increase the base size of the GGML graph as the existing size results in an insufficient graph memory error when using SDXL LoRAs. * small fixes --------- Co-authored-by: leejet <leejet714@gmail.com>
205 lines
6.0 KiB
C
205 lines
6.0 KiB
C
#ifndef __STABLE_DIFFUSION_H__
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#define __STABLE_DIFFUSION_H__
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#if defined(_WIN32) || defined(__CYGWIN__)
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#ifndef SD_BUILD_SHARED_LIB
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#define SD_API
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#else
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#ifdef SD_BUILD_DLL
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#define SD_API __declspec(dllexport)
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#else
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#define SD_API __declspec(dllimport)
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#endif
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#endif
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#else
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#if __GNUC__ >= 4
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#define SD_API __attribute__((visibility("default")))
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#else
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#define SD_API
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#endif
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#endif
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#ifdef __cplusplus
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extern "C" {
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#endif
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#include <stdbool.h>
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#include <stddef.h>
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#include <stdint.h>
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#include <string.h>
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enum rng_type_t {
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STD_DEFAULT_RNG,
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CUDA_RNG
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};
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enum sample_method_t {
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EULER_A,
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EULER,
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HEUN,
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DPM2,
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DPMPP2S_A,
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DPMPP2M,
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DPMPP2Mv2,
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LCM,
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N_SAMPLE_METHODS
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};
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enum schedule_t {
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DEFAULT,
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DISCRETE,
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KARRAS,
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N_SCHEDULES
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};
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// same as enum ggml_type
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enum sd_type_t {
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SD_TYPE_F32 = 0,
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SD_TYPE_F16 = 1,
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SD_TYPE_Q4_0 = 2,
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SD_TYPE_Q4_1 = 3,
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// SD_TYPE_Q4_2 = 4, support has been removed
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// SD_TYPE_Q4_3 (5) support has been removed
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SD_TYPE_Q5_0 = 6,
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SD_TYPE_Q5_1 = 7,
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SD_TYPE_Q8_0 = 8,
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SD_TYPE_Q8_1 = 9,
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// k-quantizations
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SD_TYPE_Q2_K = 10,
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SD_TYPE_Q3_K = 11,
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SD_TYPE_Q4_K = 12,
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SD_TYPE_Q5_K = 13,
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SD_TYPE_Q6_K = 14,
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SD_TYPE_Q8_K = 15,
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SD_TYPE_IQ2_XXS = 16,
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SD_TYPE_IQ2_XS = 17,
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SD_TYPE_IQ3_XXS = 18,
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SD_TYPE_IQ1_S = 19,
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SD_TYPE_IQ4_NL = 20,
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SD_TYPE_IQ3_S = 21,
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SD_TYPE_IQ2_S = 22,
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SD_TYPE_IQ4_XS = 23,
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SD_TYPE_I8,
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SD_TYPE_I16,
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SD_TYPE_I32,
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SD_TYPE_COUNT,
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};
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SD_API const char* sd_type_name(enum sd_type_t type);
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enum sd_log_level_t {
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SD_LOG_DEBUG,
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SD_LOG_INFO,
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SD_LOG_WARN,
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SD_LOG_ERROR
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};
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typedef void (*sd_log_cb_t)(enum sd_log_level_t level, const char* text, void* data);
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typedef void (*sd_progress_cb_t)(int step, int steps, float time, void* data);
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SD_API void sd_set_log_callback(sd_log_cb_t sd_log_cb, void* data);
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SD_API void sd_set_progress_callback(sd_progress_cb_t cb, void* data);
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SD_API int32_t get_num_physical_cores();
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SD_API const char* sd_get_system_info();
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typedef struct {
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uint32_t width;
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uint32_t height;
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uint32_t channel;
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uint8_t* data;
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} sd_image_t;
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typedef struct sd_ctx_t sd_ctx_t;
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SD_API sd_ctx_t* new_sd_ctx(const char* model_path,
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const char* vae_path,
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const char* taesd_path,
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const char* control_net_path_c_str,
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const char* lora_model_dir,
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const char* embed_dir_c_str,
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const char* stacked_id_embed_dir_c_str,
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bool vae_decode_only,
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bool vae_tiling,
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bool free_params_immediately,
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int n_threads,
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enum sd_type_t wtype,
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enum rng_type_t rng_type,
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enum schedule_t s,
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bool keep_clip_on_cpu,
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bool keep_control_net_cpu,
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bool keep_vae_on_cpu);
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SD_API void free_sd_ctx(sd_ctx_t* sd_ctx);
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SD_API sd_image_t* txt2img(sd_ctx_t* sd_ctx,
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const char* prompt,
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const char* negative_prompt,
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int clip_skip,
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float cfg_scale,
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int width,
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int height,
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enum sample_method_t sample_method,
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int sample_steps,
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int64_t seed,
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int batch_count,
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const sd_image_t* control_cond,
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float control_strength,
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float style_strength,
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bool normalize_input,
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const char* input_id_images_path);
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SD_API sd_image_t* img2img(sd_ctx_t* sd_ctx,
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sd_image_t init_image,
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const char* prompt,
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const char* negative_prompt,
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int clip_skip,
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float cfg_scale,
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int width,
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int height,
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enum sample_method_t sample_method,
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int sample_steps,
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float strength,
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int64_t seed,
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int batch_count);
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SD_API sd_image_t* img2vid(sd_ctx_t* sd_ctx,
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sd_image_t init_image,
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int width,
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int height,
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int video_frames,
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int motion_bucket_id,
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int fps,
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float augmentation_level,
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float min_cfg,
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float cfg_scale,
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enum sample_method_t sample_method,
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int sample_steps,
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float strength,
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int64_t seed);
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typedef struct upscaler_ctx_t upscaler_ctx_t;
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SD_API upscaler_ctx_t* new_upscaler_ctx(const char* esrgan_path,
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int n_threads,
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enum sd_type_t wtype);
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SD_API void free_upscaler_ctx(upscaler_ctx_t* upscaler_ctx);
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SD_API sd_image_t upscale(upscaler_ctx_t* upscaler_ctx, sd_image_t input_image, uint32_t upscale_factor);
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SD_API bool convert(const char* input_path, const char* vae_path, const char* output_path, sd_type_t output_type);
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SD_API uint8_t* preprocess_canny(uint8_t* img,
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int width,
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int height,
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float high_threshold,
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float low_threshold,
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float weak,
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float strong,
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bool inverse);
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#ifdef __cplusplus
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}
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#endif
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#endif // __STABLE_DIFFUSION_H__
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