diff options
| author | Thomas White <taw@physics.org> | 2023-09-23 17:57:20 +0200 |
|---|---|---|
| committer | Thomas White <taw@physics.org> | 2023-09-23 19:37:40 +0200 |
| commit | 1a0580e817a0f60505e38c8dd29f9e4eeeae0558 (patch) | |
| tree | 4cb92f99fbf100bfab226ea94012da262d4bda77 /libcrystfel | |
| parent | cee7ee0b8a4cafa1f8f3c67518f86c895520f5a6 (diff) | |
indexamajig: Re-use the image data arrays
We noticed that constant freeing and re-allocating the (potentially
quite large) arrays resulted in much lower performance. Since we know
that all images have the same data layout, we can safely re-use the
arrays. This gives a large speedup.
Diffstat (limited to 'libcrystfel')
| -rw-r--r-- | libcrystfel/src/image.c | 152 | ||||
| -rw-r--r-- | libcrystfel/src/image.h | 15 |
2 files changed, 127 insertions, 40 deletions
diff --git a/libcrystfel/src/image.c b/libcrystfel/src/image.c index 234b63c7..95bc56e5 100644 --- a/libcrystfel/src/image.c +++ b/libcrystfel/src/image.c @@ -603,48 +603,115 @@ int image_set_zero_data(struct image *image, } +struct _image_data_arrays +{ + float **dp; + int **bad; + int np; +}; + + +ImageDataArrays *image_data_arrays_new() +{ + ImageDataArrays *ida = malloc(sizeof(struct _image_data_arrays)); + if ( ida == NULL ) return NULL; + + ida->dp = NULL; + ida->bad = NULL; + ida->np = 0; + + return ida; +} + + +void image_data_arrays_free(ImageDataArrays *ida) +{ + int i; + + for ( i=0; i<ida->np; i++ ) { + if ( ida->dp != NULL ) free(ida->dp[i]); + if ( ida->bad != NULL ) free(ida->bad[i]); + } + + free(ida->dp); + free(ida->bad); + + free(ida); +} + + int image_create_dp_bad(struct image *image, const DataTemplate *dtempl) { int i; - image->dp = malloc(dtempl->n_panels*sizeof(float *)); - if ( image->dp == NULL ) { - ERROR("Failed to allocate data array.\n"); - return 1; - } + if ( (image->ida != NULL) && (image->ida->np > 0) ) { - image->bad = malloc(dtempl->n_panels*sizeof(int *)); - if ( image->bad == NULL ) { - ERROR("Failed to allocate bad pixel mask\n"); - free(image->dp); - return 1; - } + assert(dtempl->n_panels == image->ida->np); - /* Set all pointers to NULL for easier clean-up */ - for ( i=0; i<dtempl->n_panels; i++ ) { - image->dp[i] = NULL; - image->bad[i] = NULL; - } + /* (Re-)use the provided arrays */ + image->dp = image->ida->dp; + image->bad = image->ida->bad; - for ( i=0; i<dtempl->n_panels; i++ ) { + } else { - size_t nel = PANEL_WIDTH(&dtempl->panels[i]) * PANEL_HEIGHT(&dtempl->panels[i]); + /* Allocate new arrays */ - image->dp[i] = malloc(nel*sizeof(float)); - image->bad[i] = calloc(nel, sizeof(int)); + image->dp = malloc(dtempl->n_panels*sizeof(float *)); + if ( image->dp == NULL ) { + ERROR("Failed to allocate data array.\n"); + return 1; + } - if ( (image->dp[i] == NULL) || (image->bad[i] == NULL) ) { - ERROR("Failed to allocate panel data arrays\n"); - for ( i=0; i<dtempl->n_panels; i++ ) { - free(image->dp[i]); - free(image->bad[i]); - } + image->bad = malloc(dtempl->n_panels*sizeof(int *)); + if ( image->bad == NULL ) { + ERROR("Failed to allocate bad pixel mask\n"); free(image->dp); - free(image->bad); return 1; } + /* Set all pointers to NULL for easier clean-up */ + for ( i=0; i<dtempl->n_panels; i++ ) { + image->dp[i] = NULL; + image->bad[i] = NULL; + } + + for ( i=0; i<dtempl->n_panels; i++ ) { + + size_t nel = PANEL_WIDTH(&dtempl->panels[i]) * PANEL_HEIGHT(&dtempl->panels[i]); + + image->dp[i] = malloc(nel*sizeof(float)); + image->bad[i] = malloc(nel*sizeof(int)); + + if ( (image->dp[i] == NULL)|| (image->bad[i] == NULL) ) { + ERROR("Failed to allocate panel data arrays\n"); + for ( i=0; i<dtempl->n_panels; i++ ) { + free(image->dp[i]); + free(image->bad[i]); + } + free(image->dp); + free(image->bad); + return 1; + } + + } + + if ( image->ida != NULL ) { + image->ida->dp = image->dp; + image->ida->bad = image->bad; + image->ida->np = dtempl->n_panels; + } + + } + + for ( i=0; i<dtempl->n_panels; i++ ) { + + size_t nel = PANEL_WIDTH(&dtempl->panels[i]) * PANEL_HEIGHT(&dtempl->panels[i]); + + profile_start("zero-mask"); + memset(image->bad[i], 0, nel*sizeof(int)); + profile_end("zero-mask"); + } return 0; @@ -1237,7 +1304,8 @@ struct image *image_read(const DataTemplate *dtempl, const char *filename, const char *event, int no_image_data, - int no_mask_data) + int no_mask_data, + ImageDataArrays *ida) { struct image *image; @@ -1262,6 +1330,7 @@ struct image *image_read(const DataTemplate *dtempl, image->data_block_size = 0; image->data_source_type = file_type(image->filename); + image->ida = ida; if ( do_image_read(image, dtempl, no_image_data, no_mask_data) ) { image_free(image); @@ -1279,7 +1348,8 @@ struct image *image_read_data_block(const DataTemplate *dtempl, DataSourceType type, int serial, int no_image_data, - int no_mask_data) + int no_mask_data, + ImageDataArrays *ida) { struct image *image; @@ -1294,6 +1364,7 @@ struct image *image_read_data_block(const DataTemplate *dtempl, return NULL; } + image->ida = ida; image->filename = NULL; image->ev = NULL; image->data_block = data_block; @@ -1332,21 +1403,25 @@ void image_free(struct image *image) np = 0; } - for ( i=0; i<np; i++ ) { - if ( image->dp != NULL ) free(image->dp[i]); - if ( image->sat != NULL ) free(image->sat[i]); - if ( image->bad != NULL ) free(image->bad[i]); - } + if ( image->ida == NULL ) { + + for ( i=0; i<np; i++ ) { + if ( image->dp != NULL ) free(image->dp[i]); + if ( image->sat != NULL ) free(image->sat[i]); + if ( image->bad != NULL ) free(image->bad[i]); + } + + free(image->dp); + free(image->sat); + free(image->bad); + + } /* else the arrays belong to the IDA structure */ for ( i=0; i<image->n_cached_headers; i++ ) { free(image->header_cache[i]->header_name); free(image->header_cache[i]); } - free(image->dp); - free(image->sat); - free(image->bad); - free(image); } @@ -1372,6 +1447,7 @@ struct image *image_new() image->data_block_size = 0; image->meta_data = NULL; image->data_source_type = DATA_SOURCE_TYPE_UNKNOWN; + image->ida = NULL; image->n_cached_headers = 0; image->id = 0; diff --git a/libcrystfel/src/image.h b/libcrystfel/src/image.h index 8930ffe7..eafc5f83 100644 --- a/libcrystfel/src/image.h +++ b/libcrystfel/src/image.h @@ -75,6 +75,8 @@ struct imagefeature { /** An opaque type representing a list of image features */ typedef struct _imagefeaturelist ImageFeatureList; +typedef struct _image_data_arrays ImageDataArrays; + #define HEADER_CACHE_SIZE (128) @@ -179,6 +181,9 @@ struct image /** List of peaks found in the image */ ImageFeatureList *features; + /** Re-usable data array structure, or NULL if not used */ + ImageDataArrays *ida; + }; #ifdef __cplusplus @@ -226,7 +231,8 @@ extern struct image *image_read(const DataTemplate *dtempl, const char *filename, const char *event, int no_image_data, - int no_mask_data); + int no_mask_data, + ImageDataArrays *ida); extern struct image *image_create_for_simulation(const DataTemplate *dtempl); extern struct image *image_read_data_block(const DataTemplate *dtempl, @@ -236,7 +242,8 @@ extern struct image *image_read_data_block(const DataTemplate *dtempl, DataSourceType type, int serial, int no_image_data, - int no_mask_data); + int no_mask_data, + ImageDataArrays *ida); extern void image_free(struct image *image); extern int image_read_header_float(struct image *image, const char *from, @@ -265,6 +272,10 @@ extern ImageFeatureList *image_read_peaks(const DataTemplate *dtempl, extern char **image_expand_frames(const DataTemplate *dtempl, const char *filename, int *nframes); +extern ImageDataArrays *image_data_arrays_new(void); + +extern void image_data_arrays_free(ImageDataArrays *ida); + extern int image_create_dp_bad(struct image *image, const DataTemplate *dtempl); |