#ifdef HAVE_CONFIG_H # include #endif #include #include #include #include "evas_common_private.h" #include "evas_private.h" #define PNG_BYTES_TO_CHECK 4 #define WHITE 0xFFFFFFFF #define BLACK 0xFF000000 typedef struct _Evas_PNG_Info Evas_PNG_Info; struct _Evas_PNG_Info { unsigned char *map; size_t length; size_t position; png_structp png_ptr; png_infop info_ptr; png_uint_32 w32, h32; int bit_depth, color_type, interlace_type; volatile Eina_Bool hasa; }; typedef struct _Evas_Loader_Internal Evas_Loader_Internal; struct _Evas_Loader_Internal { Eina_File *f; Evas_Image_Load_Opts *opts; }; static const Evas_Colorspace cspace_grey[2] = { EVAS_COLORSPACE_GRY8, EVAS_COLORSPACE_ARGB8888 }; static const Evas_Colorspace cspace_grey_alpha[2] = { EVAS_COLORSPACE_AGRY88, EVAS_COLORSPACE_ARGB8888 }; static void _evas_image_png_update_x_content(Eina_Rectangle *r, int index) { if (r->x == 0) { r->x = index; r->w = 1; } else { r->w = index - r->x; } } static void _evas_image_png_update_y_content(Eina_Rectangle *r, int index) { if (r->y == 0) { r->y = index; r->h = 1; } else { r->h = index - r->y; } } static void _evas_image_png_read(png_structp png_ptr, png_bytep out, png_size_t count) { Evas_PNG_Info *epi = png_get_io_ptr(png_ptr); if (!epi) return; if (epi->position == epi->length) return; if (epi->position + count > epi->length) count = epi->length - epi->position; memcpy(out, epi->map + epi->position, count); epi->position += count; } static void * evas_image_load_file_open_png(Eina_File *f, Eina_Stringshare *key EINA_UNUSED, Evas_Image_Load_Opts *opts, Evas_Image_Animated *animated EINA_UNUSED, int *error) { Evas_Loader_Internal *loader; loader = calloc(1, sizeof (Evas_Loader_Internal)); if (!loader) { *error = EVAS_LOAD_ERROR_RESOURCE_ALLOCATION_FAILED; return NULL; } loader->f = f; loader->opts = opts; return loader; } static void evas_image_load_file_close_png(void *loader_data) { free(loader_data); } static Eina_Bool _evas_image_load_file_internal_head_png(Evas_Loader_Internal *loader, Evas_Image_Property *prop, Evas_PNG_Info *epi, int *error, Eina_Bool is_for_head) { Evas_Image_Load_Opts *opts = loader->opts; Eina_File *f = loader->f; volatile Eina_Bool r = EINA_FALSE; const char *filename; unsigned int filename_len = 0; *error = EVAS_LOAD_ERROR_NONE; epi->hasa = 0; if (!is_for_head) epi->map = eina_file_map_all(f, EINA_FILE_SEQUENTIAL); else epi->map = eina_file_map_all(f, EINA_FILE_RANDOM); if (!epi->map) { *error = EVAS_LOAD_ERROR_CORRUPT_FILE; goto close_file; } epi->length = eina_file_size_get(f); epi->position = 0; if (epi->length < PNG_BYTES_TO_CHECK) { *error = EVAS_LOAD_ERROR_UNKNOWN_FORMAT; goto close_file; } if (png_sig_cmp(epi->map, 0, PNG_BYTES_TO_CHECK)) { *error = EVAS_LOAD_ERROR_UNKNOWN_FORMAT; goto close_file; } epi->png_ptr = png_create_read_struct(PNG_LIBPNG_VER_STRING, NULL, NULL, NULL); if (!epi->png_ptr) { *error = EVAS_LOAD_ERROR_RESOURCE_ALLOCATION_FAILED; goto close_file; } epi->info_ptr = png_create_info_struct(epi->png_ptr); if (!epi->info_ptr) { *error = EVAS_LOAD_ERROR_RESOURCE_ALLOCATION_FAILED; goto close_file; } png_set_read_fn(epi->png_ptr, epi, _evas_image_png_read); if (setjmp(png_jmpbuf(epi->png_ptr))) { *error = EVAS_LOAD_ERROR_CORRUPT_FILE; goto close_file; } png_read_info(epi->png_ptr, epi->info_ptr); png_get_IHDR(epi->png_ptr, epi->info_ptr, (png_uint_32 *) (&epi->w32), (png_uint_32 *) (&epi->h32), &epi->bit_depth, &epi->color_type, &epi->interlace_type, NULL, NULL); if ((epi->w32 < 1) || (epi->h32 < 1) || (epi->w32 > IMG_MAX_SIZE) || (epi->h32 > IMG_MAX_SIZE) || IMG_TOO_BIG(epi->w32, epi->h32)) { if (IMG_TOO_BIG(epi->w32, epi->h32)) *error = EVAS_LOAD_ERROR_RESOURCE_ALLOCATION_FAILED; else *error = EVAS_LOAD_ERROR_GENERIC; goto close_file; } if (opts->emile.region.w > 0 && opts->emile.region.h > 0) { if (((int) epi->w32 < opts->emile.region.x + opts->emile.region.w) || ((int) epi->h32 < opts->emile.region.y + opts->emile.region.h)) { *error = EVAS_LOAD_ERROR_GENERIC; goto close_file; } if(opts->emile.scale_down_by > 1) { prop->info.w = opts->emile.region.w / opts->emile.scale_down_by; prop->info.h = opts->emile.region.h / opts->emile.scale_down_by; } else { prop->info.w = opts->emile.region.w; prop->info.h = opts->emile.region.h; } } else if (opts->emile.scale_down_by > 1) { prop->info.w = (int) epi->w32 / opts->emile.scale_down_by; prop->info.h = (int) epi->h32 / opts->emile.scale_down_by; if ((prop->info.w < 1) || (prop->info.h < 1)) { *error = EVAS_LOAD_ERROR_GENERIC; goto close_file; } } else { prop->info.w = (int) epi->w32; prop->info.h = (int) epi->h32; } if (png_get_valid(epi->png_ptr, epi->info_ptr, PNG_INFO_tRNS)) { /* expand transparency entry -> alpha channel if present */ if (!is_for_head) png_set_tRNS_to_alpha(epi->png_ptr); epi->hasa = 1; } switch (epi->color_type) { case PNG_COLOR_TYPE_RGB_ALPHA: epi->hasa = 1; break; case PNG_COLOR_TYPE_GRAY_ALPHA: epi->hasa = 1; prop->info.cspaces = cspace_grey_alpha; break; case PNG_COLOR_TYPE_GRAY: if (!epi->hasa) prop->info.cspaces = cspace_grey; break; } if (epi->hasa) prop->info.alpha = 1; filename = eina_file_filename_get(f); if (filename) filename_len = strlen(filename); prop->need_data = (filename_len > 6 && filename[filename_len - 7] != '/') && (eina_str_has_extension(filename, ".9.png")); if (prop->need_data) { // Adjust size to take into account the 9 patch pixels information prop->info.w -= 2; prop->info.h -= 2; } r = EINA_TRUE; if (!is_for_head) return r; close_file: if (epi->png_ptr) png_destroy_read_struct(&epi->png_ptr, epi->info_ptr ? &epi->info_ptr : NULL, NULL); if (epi->map) eina_file_map_free(f, epi->map); memset(epi, 0, sizeof (Evas_PNG_Info)); return r; } static Eina_Bool evas_image_load_file_head_png(void *loader_data, Evas_Image_Property *prop, int *error) { Evas_Loader_Internal *loader = loader_data; Evas_PNG_Info epi; memset(&epi, 0, sizeof (Evas_PNG_Info)); if (!_evas_image_load_file_internal_head_png(loader, prop, &epi, error, EINA_TRUE)) return EINA_FALSE; return EINA_TRUE; } static inline Eina_Bool _is_black(DATA32 *ptr) { if (*ptr == BLACK) return EINA_TRUE; return EINA_FALSE; } static Eina_Bool evas_image_load_file_head_with_data_png(void *loader_data, Evas_Image_Property *prop, void *pixels, int *error) { Evas_Loader_Internal *loader = loader_data; Evas_Image_Load_Opts *opts; Eina_File *f; unsigned char *src_ptr; unsigned char *pixels2; unsigned char *surface; Evas_PNG_Info epi; Eina_Rectangle region; unsigned int pack_offset; int w, h; char passes; int i, j, p, k; volatile int scale_ratio = 1; int image_w = 0, image_h = 0; volatile Eina_Bool r = EINA_FALSE; Eina_Bool nine_patch = EINA_FALSE; opts = loader->opts; f = loader->f; memset(&epi, 0, sizeof (Evas_PNG_Info)); region = opts->emile.region; if (!_evas_image_load_file_internal_head_png(loader, prop, &epi, error, EINA_FALSE)) return EINA_FALSE; if (setjmp(png_jmpbuf(epi.png_ptr))) { *error = EVAS_LOAD_ERROR_CORRUPT_FILE; goto close_file; } image_w = epi.w32; image_h = epi.h32; // We are leveragging region code to not load the border information pixels // from 9patch files into the surface used by Evas if (prop->need_data) { nine_patch = EINA_TRUE; region.x += 1; region.y += 1; if (region.w > 0 && region.h > 0) { if (region.x + region.w + 1 < image_w) region.w += 1; else region.w = image_w - region.x - 1; if (region.y + region.h + 1 < image_h) region.h += 1; else region.h = image_h - region.y - 1; } else { region.w = image_w - region.x - 1; region.h = image_h - region.y - 1; } } surface = pixels; /* Prep for transformations... ultimately we want ARGB */ /* expand palette -> RGB if necessary */ if (epi.color_type == PNG_COLOR_TYPE_PALETTE) png_set_palette_to_rgb(epi.png_ptr); /* expand gray (w/reduced bits) -> 8-bit RGB if necessary */ if ((epi.color_type == PNG_COLOR_TYPE_GRAY) || (epi.color_type == PNG_COLOR_TYPE_GRAY_ALPHA)) { if (prop->info.cspace == EVAS_COLORSPACE_ARGB8888) png_set_gray_to_rgb(epi.png_ptr); if (epi.bit_depth < 8) png_set_expand_gray_1_2_4_to_8(epi.png_ptr); } /* reduce 16bit color -> 8bit color if necessary */ if (epi.bit_depth > 8) png_set_strip_16(epi.png_ptr); /* pack all pixels to byte boundaries */ png_set_packing(epi.png_ptr); w = prop->info.w; h = prop->info.h; switch (prop->info.cspace) { case EVAS_COLORSPACE_ARGB8888: /* we want ARGB */ #ifdef WORDS_BIGENDIAN png_set_swap_alpha(epi.png_ptr); if (!epi.hasa) png_set_filler(epi.png_ptr, 0xff, PNG_FILLER_BEFORE); #else png_set_bgr(epi.png_ptr); if (!epi.hasa) png_set_filler(epi.png_ptr, 0xff, PNG_FILLER_AFTER); #endif pack_offset = sizeof(DATA32); break; case EVAS_COLORSPACE_AGRY88: /* we want AGRY */ #ifdef WORDS_BIGENDIAN png_set_swap_alpha(epi.png_ptr); if (!epi.hasa) png_set_filler(epi.png_ptr, 0xff, PNG_FILLER_BEFORE); #else if (!epi.hasa) png_set_filler(epi.png_ptr, 0xff, PNG_FILLER_AFTER); #endif pack_offset = sizeof(DATA16); break; case EVAS_COLORSPACE_GRY8: pack_offset = sizeof(DATA8); break; default: abort(); } passes = png_set_interlace_handling(epi.png_ptr); /* we read image line by line in all case because of .9.png */ pixels2 = malloc(image_w * image_h * pack_offset); if (!pixels2) { *error = EVAS_LOAD_ERROR_RESOURCE_ALLOCATION_FAILED; goto close_file; } for (p = 0; p < passes; p++) { for (i = 0; i < image_h; i++) png_read_row(epi.png_ptr, pixels2 + (i * image_w * pack_offset), NULL); } png_read_end(epi.png_ptr, epi.info_ptr); if (nine_patch && pack_offset != sizeof (DATA32)) { *error = EVAS_LOAD_ERROR_CORRUPT_FILE; free(pixels2); goto close_file; } if (nine_patch) { DATA32 *src_ptr1; DATA32 *src_ptr2; Eina_Bool stretchable = EINA_FALSE; Eina_Rectangle optional_content = { 0 }; uint8_t current = 0; memset(&prop->content, 0, sizeof (Eina_Rectangle)); // Top line of the image src_ptr1 = (DATA32*) pixels2 + 1; // Bottom line of the image src_ptr2 = src_ptr1 + (image_h - 1) * image_w; // Extract top stretch zone and horizontal content area for (i = 1; i < image_w - 1; i++, src_ptr1++, src_ptr2++) { Eina_Bool bp1 = _is_black(src_ptr1); Eina_Bool bp2 = _is_black(src_ptr2); // Updating horizontal area where content can be located if (bp2) _evas_image_png_update_x_content(&prop->content, i); // In case no content area is provided, let's make it up if (bp1) _evas_image_png_update_x_content(&optional_content, i); // Switching from a non stretchable to a stretchable zone or the opposite if (!((stretchable && (bp1)) || (!stretchable && (!bp1)))) { evas_loader_helper_stretch_region_push(&prop->stretch.horizontal.region, ¤t, stretchable); stretchable = !stretchable; } // Keep counting in the area we are in current++; if (current != 0x7F) continue; // The bucket is full evas_loader_helper_stretch_region_push(&prop->stretch.horizontal.region, ¤t, stretchable); } current = 0; // Left border of the image src_ptr1 = (DATA32*) pixels2 + image_w; // Right border of the image src_ptr2 = src_ptr1 + (image_w - 1); for (i = 1; i < image_h - 1; i++, src_ptr1 += image_w, src_ptr2 += image_w) { Eina_Bool bp1 = _is_black(src_ptr1); Eina_Bool bp2 = _is_black(src_ptr2); // Updating vertical area where content can be located if (bp2) _evas_image_png_update_y_content(&prop->content, i); // In case no content area is provided, let's make it up if (bp1) _evas_image_png_update_y_content(&optional_content, i); // Switching from a non stretchable to a stretchable zone or the opposite if (!((stretchable && (bp1)) || (!stretchable && (!bp1)))) { evas_loader_helper_stretch_region_push(&prop->stretch.vertical.region, ¤t, stretchable); stretchable = !stretchable; } // Keep counting in the area we are in current++; if (current != 0x7F) continue; // The bucket is full evas_loader_helper_stretch_region_push(&prop->stretch.vertical.region, ¤t, stretchable); } // Content zone is optional, if not provided, we should use the one we guessed if (prop->content.x == 0 || prop->content.y == 0) memcpy(&prop->content, &optional_content, sizeof (Eina_Rectangle)); // Check that the limit of our content zone are correct // This could be handled as an incorrect file completely, // but let's try to recover if (prop->content.x == 0 || prop->content.y == 0) { *error = EVAS_LOAD_ERROR_CORRUPT_FILE; free(pixels2); goto close_file; } if ((prop->content.x + prop->content.w >= image_w - 1) && (prop->content.y + prop->content.h >= image_h - 1)) { *error = EVAS_LOAD_ERROR_CORRUPT_FILE; free(pixels2); goto close_file; } // Correct the work space to be the same as the image one for intersection // with region and correct back afterward. prop->content.x++; prop->content.y++; if (eina_rectangle_intersection(&prop->content, ®ion)) { prop->content.x--; prop->content.y--; } } src_ptr = pixels2 + (region.y * image_w * pack_offset) + region.x * pack_offset; //general case: 4 bytes pixel. if (pack_offset == sizeof(DATA32)) { DATA32 *dst_ptr = (DATA32 *) surface; DATA32 *src_ptr2 = (DATA32 *) src_ptr; for (i = 0; i < h; i++) { for (j = 0; j < w; j++) { *dst_ptr = *src_ptr2; ++dst_ptr; src_ptr2 += scale_ratio; } src_ptr2 += scale_ratio * (image_w - w); } } else { unsigned char *dst_ptr = surface; for (i = 0; i < h; i++) { for (j = 0; j < w; j++) { for (k = 0; k < (int)pack_offset; k++) dst_ptr[k] = src_ptr[k + scale_ratio * j * pack_offset]; dst_ptr += pack_offset; } src_ptr += scale_ratio * (image_w - w) * pack_offset; } } free(pixels2); prop->info.premul = EINA_TRUE; *error = EVAS_LOAD_ERROR_NONE; r = EINA_TRUE; close_file: if (epi.png_ptr) png_destroy_read_struct(&epi.png_ptr, epi.info_ptr ? &epi.info_ptr : NULL, NULL); if (epi.map) eina_file_map_free(f, epi.map); return r; } static Eina_Bool evas_image_load_file_data_png(void *loader_data, Evas_Image_Property *prop, void *pixels, int *error) { Evas_Loader_Internal *loader = loader_data; Evas_Image_Load_Opts *opts; Eina_File *f; unsigned char *surface; Evas_PNG_Info epi; unsigned int pack_offset; int w, h; char passes; int i, j, p, k; volatile int scale_ratio = 1; volatile int region_set = 0; int image_w = 0, image_h = 0; volatile Eina_Bool r = EINA_FALSE; opts = loader->opts; f = loader->f; memset(&epi, 0, sizeof (Evas_PNG_Info)); if (!_evas_image_load_file_internal_head_png(loader, prop, &epi, error, EINA_FALSE)) return EINA_FALSE; if (setjmp(png_jmpbuf(epi.png_ptr))) { *error = EVAS_LOAD_ERROR_CORRUPT_FILE; goto close_file; } image_w = epi.w32; image_h = epi.h32; if (opts->emile.scale_down_by > 1) { scale_ratio = opts->emile.scale_down_by; epi.w32 /= scale_ratio; epi.h32 /= scale_ratio; } if ((opts->emile.region.w > 0 && opts->emile.region.h > 0) && (opts->emile.region.w != image_w || opts->emile.region.h != image_h)) { epi.w32 = opts->emile.region.w / scale_ratio; epi.h32 = opts->emile.region.h / scale_ratio; region_set = 1; } if (prop->info.w != epi.w32 || prop->info.h != epi.h32) { *error = EVAS_LOAD_ERROR_GENERIC; goto close_file; } surface = pixels; /* Prep for transformations... ultimately we want ARGB */ /* expand palette -> RGB if necessary */ if (epi.color_type == PNG_COLOR_TYPE_PALETTE) png_set_palette_to_rgb(epi.png_ptr); /* expand gray (w/reduced bits) -> 8-bit RGB if necessary */ if ((epi.color_type == PNG_COLOR_TYPE_GRAY) || (epi.color_type == PNG_COLOR_TYPE_GRAY_ALPHA)) { if (prop->info.cspace == EVAS_COLORSPACE_ARGB8888) png_set_gray_to_rgb(epi.png_ptr); if (epi.bit_depth < 8) png_set_expand_gray_1_2_4_to_8(epi.png_ptr); } /* reduce 16bit color -> 8bit color if necessary */ if (epi.bit_depth > 8) png_set_strip_16(epi.png_ptr); /* pack all pixels to byte boundaries */ png_set_packing(epi.png_ptr); w = epi.w32; h = epi.h32; switch (prop->info.cspace) { case EVAS_COLORSPACE_ARGB8888: /* we want ARGB */ #ifdef WORDS_BIGENDIAN png_set_swap_alpha(epi.png_ptr); if (!epi.hasa) png_set_filler(epi.png_ptr, 0xff, PNG_FILLER_BEFORE); #else png_set_bgr(epi.png_ptr); if (!epi.hasa) png_set_filler(epi.png_ptr, 0xff, PNG_FILLER_AFTER); #endif pack_offset = sizeof(DATA32); break; case EVAS_COLORSPACE_AGRY88: /* we want AGRY */ #ifdef WORDS_BIGENDIAN png_set_swap_alpha(epi.png_ptr); if (!epi.hasa) png_set_filler(epi.png_ptr, 0xff, PNG_FILLER_BEFORE); #else if (!epi.hasa) png_set_filler(epi.png_ptr, 0xff, PNG_FILLER_AFTER); #endif pack_offset = sizeof(DATA16); break; case EVAS_COLORSPACE_GRY8: pack_offset = sizeof(DATA8); break; default: abort(); } passes = png_set_interlace_handling(epi.png_ptr); /* we read image line by line if scale down was set */ if (scale_ratio == 1 && region_set == 0) { for (p = 0; p < passes; p++) { for (i = 0; i < h; i++) png_read_row(epi.png_ptr, surface + (i * w * pack_offset), NULL); } png_read_end(epi.png_ptr, epi.info_ptr); } else { unsigned char *src_ptr; unsigned char *dst_ptr = surface; int skip_row = 0, region_x = 0, region_y = 0; if (region_set) { region_x = opts->emile.region.x; region_y = opts->emile.region.y; } if (passes == 1) { int line_size = (image_w * pack_offset) - (region_x * pack_offset); unsigned char *tmp_line = (unsigned char *) alloca(image_w * pack_offset); //accumulate pixel color here. unsigned short *interp_buf = (unsigned short *) alloca(line_size * sizeof(unsigned short)); unsigned short *pbuf; for (skip_row = 0; skip_row < region_y; skip_row++) png_read_row(epi.png_ptr, tmp_line, NULL); png_read_row(epi.png_ptr, tmp_line, NULL); src_ptr = tmp_line + (region_x * pack_offset); //The first pixel, of the first line for (k = 0; k < (int) pack_offset; k++) dst_ptr[k] = src_ptr[k]; dst_ptr += pack_offset; src_ptr += (scale_ratio * pack_offset); for (j = 1; j < w; j++) { //rgba interp_buf[0] = 0; interp_buf[1] = 0; interp_buf[2] = 0; interp_buf[3] = 0; //horizontal interpolation. for (p = 0; p < scale_ratio; p++) { for (k = 0; k < (int) pack_offset; k++) interp_buf[k] += src_ptr[k - (int)(p * pack_offset)]; } for (k = 0; k < (int) pack_offset; k++) dst_ptr[k] = (interp_buf[k] / scale_ratio); dst_ptr += pack_offset; src_ptr += (scale_ratio * pack_offset); } //next lines for (i = 1; i < h; i++) { memset(interp_buf, 0x00, line_size * sizeof(unsigned short)); //vertical interpolation. for (j = 0; j < scale_ratio; j++) { png_read_row(epi.png_ptr, tmp_line, NULL); src_ptr = tmp_line + (region_x * pack_offset); for (p = 0; p < line_size; ++p) interp_buf[p] += src_ptr[p]; } for (p = 0; p < line_size; ++p) interp_buf[p] /= scale_ratio; pbuf = interp_buf; //The first pixel of the current line for (k = 0; k < (int) pack_offset; k++) dst_ptr[k] = pbuf[k]; dst_ptr += pack_offset; pbuf += scale_ratio * pack_offset; for (j = 1; j < w; j++) { //horizontal interpolation. for (p = 1; p < scale_ratio; ++p) { for (k = 0; k < (int) pack_offset; k++) pbuf[k] += pbuf[k - (int)(p * pack_offset)]; } for (k = 0; k < (int) pack_offset; k++) dst_ptr[k] = (pbuf[k] / scale_ratio); dst_ptr += pack_offset; pbuf += (scale_ratio * pack_offset); } } for (skip_row = region_y + h * scale_ratio; skip_row < image_h; skip_row++) png_read_row(epi.png_ptr, tmp_line, NULL); } else { //TODO: Scale-down interpolation for multi-pass? unsigned char *pixels2 = malloc(image_w * image_h * pack_offset); if (pixels2) { for (p = 0; p < passes; p++) { for (i = 0; i < image_h; i++) png_read_row(epi.png_ptr, pixels2 + (i * image_w * pack_offset), NULL); } png_read_end(epi.png_ptr, epi.info_ptr); src_ptr = pixels2 + (region_y * image_w * pack_offset) + region_x * pack_offset; //general case: 4 bytes pixel. if (pack_offset == sizeof(DATA32)) { DATA32 *dst_ptr2 = (DATA32 *) surface; DATA32 *src_ptr2 = (DATA32 *) src_ptr; for (i = 0; i < h; i++) { for (j = 0; j < w; j++) { *dst_ptr2 = *src_ptr2; ++dst_ptr2; src_ptr2 += scale_ratio; } src_ptr2 += scale_ratio * image_w; } } else { unsigned char *dst_ptr2 = surface; for (i = 0; i < h; i++) { for (j = 0; j < w; j++) { for (k = 0; k < (int)pack_offset; k++) dst_ptr2[k] = src_ptr[k + scale_ratio * j * pack_offset]; dst_ptr2 += pack_offset; } src_ptr += scale_ratio * image_w * pack_offset; } } free(pixels2); } } } prop->info.premul = EINA_TRUE; *error = EVAS_LOAD_ERROR_NONE; r = EINA_TRUE; close_file: if (epi.png_ptr) png_destroy_read_struct(&epi.png_ptr, epi.info_ptr ? &epi.info_ptr : NULL, NULL); if (epi.map) eina_file_map_free(f, epi.map); return r; } static Evas_Image_Load_Func evas_image_load_png_func = { EVAS_IMAGE_LOAD_VERSION, evas_image_load_file_open_png, evas_image_load_file_close_png, evas_image_load_file_head_png, evas_image_load_file_head_with_data_png, evas_image_load_file_data_png, NULL, EINA_TRUE, EINA_FALSE }; static int module_open(Evas_Module *em) { if (!em) return 0; em->functions = (void *)(&evas_image_load_png_func); return 1; } static void module_close(Evas_Module *em EINA_UNUSED) { } static Evas_Module_Api evas_modapi = { EVAS_MODULE_API_VERSION, "png", "none", { module_open, module_close } }; EVAS_MODULE_DEFINE(EVAS_MODULE_TYPE_IMAGE_LOADER, image_loader, png); #ifndef EVAS_STATIC_BUILD_PNG EVAS_EINA_MODULE_DEFINE(image_loader, png); #endif