/* pngvalid.c - validate libpng by constructing then reading png files. * * Last changed in libpng 1.5.0 [August 11, 2010] * Copyright (c) 2010 Glenn Randers-Pehrson * Written by John C. Bowler * * This code is released under the libpng license. * For conditions of distribution and use, see the disclaimer * and license in png.h * * NOTES: * This is a C program that is intended to be linked against libpng. It * generates bitmaps internally, stores them as PNG files (using the * sequential write code) then reads them back (using the sequential * read code) and validates that the result has the correct data. * * The program can be modified and extended to test the correctness of * transformations performed by libpng. */ #include "png.h" #include "zlib.h" /* For crc32 */ #include /* For malloc */ #include /* For memcpy, memset */ #include /* For floor */ /* Unused formal parameter errors are removed using the following macro which is * expected to have no bad effects on performance. */ #ifndef UNUSED # define UNUSED(param) param = param; #endif /***************************** EXCEPTION HANDLING *****************************/ #include "contrib/visupng/cexcept.h" define_exception_type(struct png_store*); /* The following is a macro to reduce typing everywhere where the well known * name 'the_exception_context' must be defined. */ #define context(ps,fault) struct exception_context *the_exception_context = \ &(ps)->exception_context; png_store *fault /******************************* ERROR UTILITIES ******************************/ static size_t safecat(char *buffer, size_t bufsize, size_t pos, PNG_CONST char *cat) { while (pos < bufsize && cat != NULL && *cat != 0) buffer[pos++] = *cat++; if (pos >= bufsize) pos = bufsize-1; buffer[pos] = 0; return pos; } static size_t safecatn(char *buffer, size_t bufsize, size_t pos, int n) { char number[64]; sprintf(number, "%d", n); return safecat(buffer, bufsize, pos, number); } static size_t safecatd(char *buffer, size_t bufsize, size_t pos, double d, int precision) { char number[64]; sprintf(number, "%.*f", precision, d); return safecat(buffer, bufsize, pos, number); } static PNG_CONST char invalid[] = "invalid"; static PNG_CONST char sep[] = ": "; /* NOTE: this is indexed by ln2(bit_depth)! */ static PNG_CONST char *bit_depths[8] = { "1", "2", "4", "8", "16", invalid, invalid, invalid }; static PNG_CONST char *colour_types[8] = { "greyscale", invalid, "truecolour", "indexed-colour", "greyscale with alpha", invalid, "truecolour with alpha", invalid }; /* Convenience API to list valid formats: */ static int next_format(png_bytep colour_type, png_bytep bit_depth) { if (*bit_depth == 0) { *colour_type = 0, *bit_depth = 1; return 1; } *bit_depth = (png_byte)(*bit_depth << 1); /* Palette images are restricted to 8 bit depth */ if (*bit_depth <= 8 || (*colour_type != 3 && *bit_depth <= 16)) return 1; /* Move to the next color type, or return 0 at the end. */ switch (*colour_type) { case 0: *colour_type = 2; *bit_depth = 8; return 1; case 2: *colour_type = 3; *bit_depth = 1; return 1; case 3: *colour_type = 4; *bit_depth = 8; return 1; case 4: *colour_type = 6; *bit_depth = 8; return 1; default: return 0; } } static unsigned int sample(png_byte *row, png_byte colour_type, png_byte bit_depth, png_uint_32 x, unsigned int sample) { png_uint_32 index, result; /* Find a sample index for the desired sample: */ x *= bit_depth; index = x; if ((colour_type & 1) == 0) /* !palette */ { if (colour_type & 2) index *= 3, index += sample; /* Colour channels; select one */ if (colour_type & 4) index += x; /* Alpha channel */ } /* Return the sample from the row as an integer. */ row += index >> 3; result = *row; if (bit_depth == 8) return result; else if (bit_depth > 8) return (result << 8) + *++row; /* Less than 8 bits per sample. */ index &= 7; return (result >> (8-index-bit_depth)) & ((1U<verbose = 0; ps->treat_warnings_as_errors = 0; ps->expect_error = 0; ps->expect_warning = 0; ps->saw_warning = 0; ps->nerrors = ps->nwarnings = 0; ps->pread = NULL; ps->piread = NULL; ps->saved = ps->current = NULL; ps->next = NULL; ps->readpos = 0; ps->pwrite = NULL; ps->piwrite = NULL; ps->writepos = 0; ps->new.prev = NULL; } static void store_freebuffer(png_store_buffer* psb) { if (psb->prev) { store_freebuffer(psb->prev); free(psb->prev); psb->prev = NULL; } } static void store_freenew(png_store *ps) { store_freebuffer(&ps->new); ps->writepos = 0; } static void store_storenew(png_store *ps) { png_store_buffer *pb; if (ps->writepos != STORE_BUFFER_SIZE) png_error(ps->pwrite, "invalid store call"); pb = malloc(sizeof *pb); if (pb == NULL) png_error(ps->pwrite, "store new: OOM"); *pb = ps->new; ps->new.prev = pb; ps->writepos = 0; } /* Currently unused: */ #if 0 static void store_freefile(png_store_file *pf) { if (pf->next) store_freefile(pf->next); pf->next = NULL; store_freebuffer(&pf->data); pf->datacount = 0; free(pf); } #endif /* Main interface to file storeage, after writing a new PNG file (see the API * below) call store_storefile to store the result with the given name and id. */ static void store_storefile(png_store *ps, png_uint_32 id) { png_store_file *pf = malloc(sizeof *pf); if (pf == NULL) png_error(ps->pwrite, "storefile: OOM"); safecat(pf->name, sizeof pf->name, 0, ps->wname); pf->id = id; pf->data = ps->new; pf->datacount = ps->writepos; ps->new.prev = NULL; ps->writepos = 0; /* And save it. */ pf->next = ps->saved; ps->saved = pf; } /* Generate an error message (in the given buffer) */ static size_t store_message(png_structp pp, char *buffer, size_t bufsize, PNG_CONST char *msg) { size_t pos = 0; png_store *ps = png_get_error_ptr(pp); if (pp == ps->pread) { /* Reading a file */ pos = safecat(buffer, bufsize, pos, "read: "); if (ps->current != NULL) { pos = safecat(buffer, bufsize, pos, ps->current->name); pos = safecat(buffer, bufsize, pos, sep); } } else if (pp == ps->pwrite) { /* Writing a file */ pos = safecat(buffer, bufsize, pos, "write: "); pos = safecat(buffer, bufsize, pos, ps->wname); pos = safecat(buffer, bufsize, pos, sep); } else { /* Neither reading nor writing */ pos = safecat(buffer, bufsize, pos, "pngvalid: "); } pos = safecat(buffer, bufsize, pos, ps->test); pos = safecat(buffer, bufsize, pos, sep); pos = safecat(buffer, bufsize, pos, msg); return pos; } /* Functions to use as PNG callbacks. */ static void store_error(png_structp pp, png_const_charp message) /* PNG_NORETURN */ { png_store *ps = png_get_error_ptr(pp); if (!ps->expect_error) { char buffer[256]; store_message(pp, buffer, sizeof buffer, message); if (ps->nerrors++ == 0) safecat(ps->error, sizeof ps->error, 0, buffer); if (ps->verbose) fprintf(stderr, "error: %s\n", buffer); } /* And finally throw an exception. */ { struct exception_context *the_exception_context = &ps->exception_context; Throw ps; } } static void store_warning(png_structp pp, png_const_charp message) { png_store *ps = png_get_error_ptr(pp); if (!ps->expect_warning) { char buffer[256]; store_message(pp, buffer, sizeof buffer, message); if (ps->nwarnings++ == 0 && ps->nerrors == 0) safecat(ps->error, sizeof ps->error, 0, buffer); if (ps->verbose) fprintf(stderr, "warning: %s\n", buffer); } else ps->saw_warning = 1; } static void store_write(png_structp pp, png_bytep pb, png_size_t st) { png_store *ps = png_get_io_ptr(pp); if (ps->pwrite != pp) png_error(pp, "store state damaged"); while (st > 0) { size_t cb; if (ps->writepos >= STORE_BUFFER_SIZE) store_storenew(ps); cb = st; if (cb > STORE_BUFFER_SIZE - ps->writepos) cb = STORE_BUFFER_SIZE - ps->writepos; memcpy(ps->new.buffer + ps->writepos, pb, cb); pb += cb; st -= cb; ps->writepos += cb; } } static void store_flush(png_structp pp) { pp = pp; /*DOES NOTHING*/ } static size_t store_read_buffer_size(png_store *ps) { /* Return the bytes available for read in the current buffer. */ if (ps->next != &ps->current->data) return STORE_BUFFER_SIZE; return ps->current->datacount; } static int store_read_buffer_next(png_store *ps) { png_store_buffer *pbOld = ps->next; png_store_buffer *pbNew = &ps->current->data; if (pbOld != pbNew) { while (pbNew != NULL && pbNew->prev != pbOld) pbNew = pbNew->prev; if (pbNew != NULL) { ps->next = pbNew; ps->readpos = 0; return 1; } png_error(ps->pread, "buffer lost"); } return 0; /* EOF or error */ } static void store_read(png_structp pp, png_bytep pb, png_size_t st) { png_store *ps = png_get_io_ptr(pp); if (ps->pread != pp || ps->current == NULL || ps->next == NULL) png_error(pp, "store state damaged"); while (st > 0) { size_t cbAvail = store_read_buffer_size(ps) - ps->readpos; if (cbAvail > 0) { if (cbAvail > st) cbAvail = st; memcpy(pb, ps->next->buffer + ps->readpos, cbAvail); st -= cbAvail; pb += cbAvail; ps->readpos += cbAvail; } else if (!store_read_buffer_next(ps)) png_error(pp, "read beyond end of file"); } } /* Setup functions. */ /* Cleanup when aborting a write or after storing the new file. */ static void store_write_reset(png_store *ps) { if (ps->pwrite != NULL) { png_destroy_write_struct(&ps->pwrite, &ps->piwrite); ps->pwrite = NULL; ps->piwrite = NULL; } store_freenew(ps); } /* The following is the main write function, it returns a png_struct and, * optionally, a png)info suitable for writiing a new PNG file. Use * store_storefile above to record this file after it has been written. The * returned libpng structures as destroyed by store_write_reset above. */ static png_structp set_store_for_write(png_store *ps, png_infopp ppi, PNG_CONST char * volatile name) { context(ps,fault); png_structp result = NULL; Try { if (ps->pwrite != NULL) png_error(ps->pwrite, "store already in use"); store_write_reset(ps); safecat(ps->wname, sizeof ps->wname, 0, name); ps->pwrite = png_create_write_struct(PNG_LIBPNG_VER_STRING, ps, store_error, store_warning); png_set_write_fn(ps->pwrite, ps, store_write, store_flush); if (ppi != NULL) *ppi = ps->piwrite = png_create_info_struct(ps->pwrite); result = ps->pwrite; } Catch(fault) { if (fault != ps) Throw fault; } return result; } /* Cleanup when finished reading (either due to error or in the success case. ) */ static void store_read_reset(png_store *ps) { if (ps->pread != NULL) { png_destroy_read_struct(&ps->pread, &ps->piread, NULL); ps->pread = NULL; ps->piread = NULL; } ps->current = NULL; ps->next = NULL; ps->readpos = 0; } static void store_read_set(png_store *ps, png_uint_32 id) { png_store_file *pf = ps->saved; while (pf != NULL) { if (pf->id == id) { ps->current = pf; ps->next = NULL; store_read_buffer_next(ps); return; } pf = pf->next; } png_error(ps->pread, "unable to find file to read"); } /* The main interface for reading a saved file - pass the id number of the file * to retrieve. Ids must be unique or the earlier file will be hidden. The API * returns a png_struct and, optionally, a png_info. Both of these will be * destroyed by store_read_reset above. */ static png_structp set_store_for_read(png_store *ps, png_infopp ppi, png_uint_32 id, PNG_CONST char *name) { context(ps, fault); png_structp result = NULL; /* NOTE: reference to 'name' must be outside the Try block or GCC can * optimize it away. */ safecat(ps->test, sizeof ps->test, 0, name); Try { if (ps->pread != NULL) png_error(ps->pread, "store already in use"); store_read_reset(ps); ps->pread = png_create_read_struct(PNG_LIBPNG_VER_STRING, ps, store_error, store_warning); store_read_set(ps, id); png_set_read_fn(ps->pread, ps, store_read); if (ppi != NULL) *ppi = ps->piread = png_create_info_struct(ps->pread); result = ps->pread; } Catch(fault) { if (ps != fault) Throw fault; } return result; } /*********************** PNG FILE MODIFICATION ON READ ************************/ /* Files may be modified on read. The following structure contains a complete * png_store together with extra members to handle modification and a special * read callback for libpng. To use this the 'modifications' field must be set * to a list of png_modification structures that actually perform the * modification, otherwise a png_modifier is functionally equivalent to a * png_store. There is a special read function, set_modifier_for_read, which * replaces set_store_for_read. */ typedef struct png_modifier { png_store this; /* I am a png_store */ struct png_modification *modifications; /* Changes to make */ enum modifier_state { modifier_start, /* Initial value */ modifier_signature, /* Have a signature */ modifier_IHDR /* Have an IHDR */ } state; /* My state */ /* Information from IHDR: */ png_byte bit_depth; /* From IHDR */ png_byte colour_type; /* From IHDR */ /* While handling PLTE, IDAT and IEND these chunks may be pended to allow * other chunks to be inserted. */ png_uint_32 pending_len; png_uint_32 pending_chunk; /* Test values */ double *gammas; unsigned int ngammas; /* Lowest sbit to test (libpng fails for sbit < 8) */ png_byte sbitlow; /* Error control - these are the limits on errors accepted by the gamma tests * below. */ double maxout8; /* Maximum output value error */ double maxabs8; /* Absolute sample error 0..1 */ double maxpc8; /* Percentage sample error 0..100% */ double maxout16; /* Maximum output value error */ double maxabs16; /* Absolute sample error 0..1 */ double maxpc16; /* Percentage sample error 0..100% */ /* Logged 8 and 16 bit errors ('output' values): */ double error_gray_2; double error_gray_4; double error_gray_8; double error_gray_16; double error_color_8; double error_color_16; /* Flags: */ /* When to use the use_input_precision option: */ unsigned int use_input_precision :1; unsigned int use_input_precision_sbit :1; unsigned int use_input_precision_16to8 :1; unsigned int log :1; /* Log max error */ /* Buffer information, the buffer size limits the size of the chunks that can * be modified - they must fit (including header and CRC) into the buffer! */ size_t flush; /* Count of bytes to flush */ size_t buffer_count; /* Bytes in buffer */ size_t buffer_position; /* Position in buffer */ png_byte buffer[1024]; } png_modifier; static double abserr(png_modifier *pm, png_byte bit_depth) { return bit_depth == 16 ? pm->maxabs16 : pm->maxabs8; } static double pcerr(png_modifier *pm, png_byte bit_depth) { return (bit_depth == 16 ? pm->maxpc16 : pm->maxpc8) * .01; } static double outerr(png_modifier *pm, png_byte bit_depth) { /* There is a serious error in the 2 and 4 bit grayscale transform because * the gamma table value (8 bits) is simply shifted, not rouned, so the * error in 4 bit greyscale gamma is up to the value below. This is a hack * to allow pngvalid to succeed: */ if (bit_depth == 2) return .73182-.5; if (bit_depth == 4) return .90644-.5; if (bit_depth == 16) return pm->maxout16; return pm->maxout8; } /* This returns true if the test should be stopped now because it has already * failed and it is running silently. */ static int fail(png_modifier *pm) { return !pm->log && !pm->this.verbose && (pm->this.nerrors > 0 || (pm->this.treat_warnings_as_errors && pm->this.nwarnings > 0)); } static void modifier_init(png_modifier *pm) { memset(pm, 0, sizeof *pm); store_init(&pm->this); pm->modifications = NULL; pm->state = modifier_start; pm->sbitlow = 1U; pm->maxout8 = pm->maxpc8 = pm->maxabs8 = 0; pm->maxout16 = pm->maxpc16 = pm->maxabs16 = 0; pm->error_gray_2 = pm->error_gray_4 = pm->error_gray_8 = 0; pm->error_gray_16 = pm->error_color_8 = pm->error_color_16 = 0; pm->use_input_precision = 0; pm->use_input_precision_sbit = 0; pm->use_input_precision_16to8 = 0; pm->log = 0; /* Rely on the memset for all the other fields - there are no pointers */ } /* One modification strucutre must be provided for each chunk to be modified (in * fact more than one can be provided if multiple separate changes are desired * for a single chunk.) Modifications include adding a new chunk when a * suitable chunk does not exist. * * The caller of modify_fn will reset the CRC of the chunk and record 'modified' * or 'added' as appropriate if the modify_fn returns 1 (true). If the * modify_fn is NULL the chunk is simply removed. */ typedef struct png_modification { struct png_modification *next; png_uint_32 chunk; /* If the following is NULL all matching chunks will be removed: */ int (*modify_fn)(png_structp pp, struct png_modifier *pm, struct png_modification *me, int add); /* If the following is set to PLTE, IDAT or IEND and the chunk has not been * found and modified (and there is a modify_fn) the modify_fn will be called * to add the chunk before the relevant chunk. */ png_uint_32 add; unsigned int modified :1; /* Chunk was modified */ unsigned int added :1; /* Chunk was added */ unsigned int removed :1; /* Chunk was removed */ } png_modification; static void modification_reset(png_modification *pmm) { if (pmm != NULL) { pmm->modified = 0; pmm->added = 0; pmm->removed = 0; modification_reset(pmm->next); } } static void modification_init(png_modification *pmm) { memset(pmm, 0, sizeof *pmm); pmm->next = NULL; pmm->chunk = 0; pmm->modify_fn = NULL; pmm->add = 0; modification_reset(pmm); } static void modifier_reset(png_modifier *pm) { store_read_reset(&pm->this); pm->modifications = NULL; pm->state = modifier_start; pm->bit_depth = pm->colour_type = 0; pm->pending_len = pm->pending_chunk = 0; pm->flush = pm->buffer_count = pm->buffer_position = 0; } /* Convenience macros. */ #define CHUNK(a,b,c,d) (((a)<<24)+((b)<<16)+((c)<<8)+(d)) #define CHUNK_IHDR CHUNK(73,72,68,82) #define CHUNK_PLTE CHUNK(80,76,84,69) #define CHUNK_IDAT CHUNK(73,68,65,84) #define CHUNK_IEND CHUNK(73,69,78,68) #define CHUNK_cHRM CHUNK(99,72,82,77) #define CHUNK_gAMA CHUNK(103,65,77,65) #define CHUNK_sBIT CHUNK(115,66,73,84) #define CHUNK_sRGB CHUNK(115,82,71,66) /* The guts of modification are performed during a read. */ static void modifier_crc(png_bytep buffer) { /* Recalculate the chunk CRC - a complete chunk must be in * the buffer, at the start. */ uInt datalen = png_get_uint_32(buffer); png_save_uint_32(buffer+datalen+8, crc32(0L, buffer+4, datalen+4)); } static void modifier_setbuffer(png_modifier *pm) { modifier_crc(pm->buffer); pm->buffer_count = png_get_uint_32(pm->buffer)+12; pm->buffer_position = 0; } static void modifier_read(png_structp pp, png_bytep pb, png_size_t st) { png_modifier *pm = png_get_io_ptr(pp); while (st > 0) { size_t cb; png_uint_32 len, chunk; png_modification *mod; if (pm->buffer_position >= pm->buffer_count) switch (pm->state) { static png_byte sign[8] = { 137, 80, 78, 71, 13, 10, 26, 10 }; case modifier_start: store_read(pp, pm->buffer, 8); /* size of signature. */ pm->buffer_count = 8; pm->buffer_position = 0; if (memcmp(pm->buffer, sign, 8) != 0) png_error(pp, "invalid PNG file signature"); pm->state = modifier_signature; break; case modifier_signature: store_read(pp, pm->buffer, 13+12); /* size of IHDR */ pm->buffer_count = 13+12; pm->buffer_position = 0; if (png_get_uint_32(pm->buffer) != 13 || png_get_uint_32(pm->buffer+4) != CHUNK_IHDR) png_error(pp, "invalid IHDR"); /* Check the list of modifiers for modifications to the IHDR. */ mod = pm->modifications; while (mod != NULL) { if (mod->chunk == CHUNK_IHDR && mod->modify_fn && (*mod->modify_fn)(pp, pm, mod, 0)) { mod->modified = 1; modifier_setbuffer(pm); } /* Ignore removal or add if IHDR! */ mod = mod->next; } /* Cache information from the IHDR (the modified one.) */ pm->bit_depth = pm->buffer[8+8]; pm->colour_type = pm->buffer[8+8+1]; pm->state = modifier_IHDR; pm->flush = 0; break; case modifier_IHDR: default: /* Read a new chunk and process it until we see PLTE, IDAT or * IEND. 'flush' indicates that there is still some data to * output from the preceding chunk. */ if ((cb = pm->flush) > 0) { if (cb > st) cb = st; pm->flush -= cb; store_read(pp, pb, cb); pb += cb; st -= cb; if (st <= 0) return; } /* No more bytes to flush, read a header, or handle a pending * chunk. */ if (pm->pending_chunk != 0) { png_save_uint_32(pm->buffer, pm->pending_len); png_save_uint_32(pm->buffer+4, pm->pending_chunk); pm->pending_len = 0; pm->pending_chunk = 0; } else store_read(pp, pm->buffer, 8); pm->buffer_count = 8; pm->buffer_position = 0; /* Check for something to modify or a terminator chunk. */ len = png_get_uint_32(pm->buffer); chunk = png_get_uint_32(pm->buffer+4); /* Terminators first, they may have to be delayed for added * chunks */ if (chunk == CHUNK_PLTE || chunk == CHUNK_IDAT || chunk == CHUNK_IEND) { mod = pm->modifications; while (mod != NULL) { if ((mod->add == chunk || (mod->add == CHUNK_PLTE && chunk == CHUNK_IDAT)) && mod->modify_fn != NULL && !mod->modified && !mod->added) { /* Regardless of what the modify function does do not run * this again. */ mod->added = 1; if ((*mod->modify_fn)(pp, pm, mod, 1/*add*/)) { /* Reset the CRC on a new chunk */ if (pm->buffer_count > 0) modifier_setbuffer(pm); else { pm->buffer_position = 0; mod->removed = 1; } /* The buffer has been filled with something (we assume) * so output this. Pend the current chunk. */ pm->pending_len = len; pm->pending_chunk = chunk; break; /* out of while */ } } mod = mod->next; } /* Don't do any further processing if the buffer was modified - * otherwise the code will end up modifying a chunk that was just * added. */ if (mod != NULL) break; /* out of switch */ } /* If we get to here then this chunk may need to be modified. To do * this is must be less than 1024 bytes in total size, otherwise * it just gets flushed. */ if (len+12 <= sizeof pm->buffer) { store_read(pp, pm->buffer+pm->buffer_count, len+12-pm->buffer_count); pm->buffer_count = len+12; /* Check for a modification, else leave it be. */ mod = pm->modifications; while (mod != NULL) { if (mod->chunk == chunk) { if (mod->modify_fn == NULL) { /* Remove this chunk */ pm->buffer_count = pm->buffer_position = 0; mod->removed = 1; break; /* Terminate the while loop */ } else if ((*mod->modify_fn)(pp, pm, mod, 0)) { mod->modified = 1; /* The chunk may have been removed: */ if (pm->buffer_count == 0) { pm->buffer_position = 0; break; } modifier_setbuffer(pm); } } mod = mod->next; } } else pm->flush = len+12 - pm->buffer_count; /* data + crc */ /* Take the data from the buffer (if there is any). */ break; } /* Here to read from the modifier buffer (not directly from * the store, as in the flush case above.) */ cb = pm->buffer_count - pm->buffer_position; if (cb > st) cb = st; memcpy(pb, pm->buffer + pm->buffer_position, cb); st -= cb; pb += cb; pm->buffer_position += cb; } } /* Set up a modifier. */ static png_structp set_modifier_for_read(png_modifier *pm, png_infopp ppi, png_uint_32 id, PNG_CONST char *name) { volatile png_structp ppSafe = set_store_for_read(&pm->this, ppi, id, name); if (ppSafe != NULL) { context(&pm->this, fault); Try { png_set_read_fn(ppSafe, pm, modifier_read); pm->state = modifier_start; pm->bit_depth = 0; pm->colour_type = 255; pm->pending_len = 0; pm->pending_chunk = 0; pm->flush = 0; pm->buffer_count = 0; pm->buffer_position = 0; } Catch(fault) { store_read_reset(&pm->this); if (fault != &pm->this) Throw fault; ppSafe = NULL; } } return ppSafe; } /***************************** STANDARD PNG FILES *****************************/ /* Standard files - write and save standard files. */ /* The standard files are constructed with rows which fit into a 1024 byte row * buffer. This makes allocation easier below. Further regardless of the file * format every file has 128 pixels (giving 1024 bytes for 64bpp formats). * * Files are stored with no gAMA or sBIT chunks, with a PLTE only when needed * and with an ID derived from the colour type and bit depth as follows: */ #define FILEID(col, depth) ((png_uint_32)((col) + ((depth)<<3))) #define COL_FROM_ID(id) ((id)& 0x7U) #define DEPTH_FROM_ID(id) (((id) >> 3) & 0x1fU) #define STD_WIDTH 128U #define STD_ROWMAX (STD_WIDTH*8U) static unsigned int bit_size(png_structp pp, png_byte colour_type, png_byte bit_depth) { switch (colour_type) { case 0: return bit_depth; case 2: return 3*bit_depth; case 3: return bit_depth; case 4: return 2*bit_depth; case 6: return 4*bit_depth; default: png_error(pp, "invalid color type"); } } static size_t standard_rowsize(png_structp pp, png_byte colour_type, png_byte bit_depth) { return (STD_WIDTH * bit_size(pp, colour_type, bit_depth)) / 8; } /* standard_wdith(pp, colour_type, bit_depth) current returns the same number * every time, so just use a macro: */ #define standard_width(pp, colour_type, bit_depth) STD_WIDTH static png_uint_32 standard_height(png_structp pp, png_byte colour_type, png_byte bit_depth) { switch (bit_size(pp, colour_type, bit_depth)) { case 1: case 2: case 4: return 1; /* Total of 128 pixels */ case 8: return 2; /* Total of 256 pixels/bytes */ case 16: return 512; /* Total of 65536 pixels */ case 24: case 32: return 512; /* 65536 pixels */ case 48: case 64: return 2048;/* 4 x 65536 pixels. */ default: return 0; /* Error, will be caught later */ } } static void standard_row(png_structp pp, png_byte buffer[STD_ROWMAX], png_byte colour_type, png_byte bit_depth, png_uint_32 y) { png_uint_32 v = y << 7; png_uint_32 i = 0; switch (bit_size(pp, colour_type, bit_depth)) { case 1: while (i<128/8) buffer[i] = v & 0xff, v += 17, ++i; return; case 2: while (i<128/4) buffer[i] = v & 0xff, v += 33, ++i; return; case 4: while (i<128/2) buffer[i] = v & 0xff, v += 65, ++i; return; case 8: /* 256 bytes total, 128 bytes in each row set as follows: */ while (i<128) buffer[i] = v & 0xff, ++v, ++i; return; case 16: /* Generate all 65536 pixel values in order, this includes the 8 bit GA * case as we as the 16 bit G case. */ while (i<128) buffer[2*i] = (v>>8) & 0xff, buffer[2*i+1] = v & 0xff, ++v, ++i; return; case 24: /* 65535 pixels, but rotate the values. */ while (i<128) { /* Three bytes per pixel, r, g, b, make b by r^g */ buffer[3*i+0] = (v >> 8) & 0xff; buffer[3*i+1] = v & 0xff; buffer[3*i+2] = ((v >> 8) ^ v) & 0xff; ++v; ++i; } return; case 32: /* 65535 pixels, r, g, b, a; just replicate */ while (i<128) { buffer[4*i+0] = (v >> 8) & 0xff; buffer[4*i+1] = v & 0xff; buffer[4*i+2] = (v >> 8) & 0xff; buffer[4*i+3] = v & 0xff; ++v; ++i; } return; case 48: /* y is maximum 2047, giving 4x65536 pixels, make 'r' increase by 1 at * each pixel, g increase by 257 (0x101) and 'b' by 0x1111: */ while (i<128) { png_uint_32 t = v++; buffer[6*i+0] = (t >> 8) & 0xff; buffer[6*i+1] = t & 0xff; t *= 257; buffer[6*i+2] = (t >> 8) & 0xff; buffer[6*i+3] = t & 0xff; t *= 17; buffer[6*i+4] = (t >> 8) & 0xff; buffer[6*i+5] = t & 0xff; ++i; } return; case 64: /* As above in the 32 bit case. */ while (i<128) { png_uint_32 t = v++; buffer[8*i+0] = (t >> 8) & 0xff; buffer[8*i+1] = t & 0xff; buffer[8*i+4] = (t >> 8) & 0xff; buffer[8*i+5] = t & 0xff; t *= 257; buffer[8*i+2] = (t >> 8) & 0xff; buffer[8*i+3] = t & 0xff; buffer[8*i+6] = (t >> 8) & 0xff; buffer[8*i+7] = t & 0xff; ++i; } return; default: break; } png_error(pp, "internal error"); } /* This is just to do the right cast - could be changed to a function to check * 'bd' but there isn't much point. */ #define DEPTH(bd) ((png_byte)(1U << (bd))) static void make_standard(png_store* PNG_CONST ps, png_byte PNG_CONST colour_type, int PNG_CONST bdloIn, int PNG_CONST bdhi) { volatile int bdlo = bdloIn; for (; bdlo <= bdhi; ++bdlo) { context(ps, fault); png_structp pp; png_infop pi; { size_t pos; char name[64]; /* Same size as the buffer in a file. */ /* Build a name */ pos = safecat(name, sizeof name, 0, bit_depths[bdlo]); pos = safecat(name, sizeof name, pos, "bit "); pos = safecat(name, sizeof name, pos, colour_types[colour_type]); /* Get a png_struct for writing the image. */ pp = set_store_for_write(ps, &pi, name); } if (pp == NULL) return; /* Do the honourable write stuff, protected by a local catch */ Try { png_byte bit_depth = DEPTH(bdlo); png_uint_32 h = standard_height(pp, colour_type, bit_depth), y; png_set_IHDR(pp, pi, standard_width(pp, colour_type, bit_depth), h, bit_depth, colour_type, PNG_INTERLACE_NONE, PNG_COMPRESSION_TYPE_BASE, PNG_FILTER_TYPE_BASE); if (colour_type == 3) /* palette */ { unsigned int i = 0; png_color pal[256]; do pal[i].red = pal[i].green = pal[i].blue = (png_byte)i; while(++i < 256U); png_set_PLTE(pp, pi, pal, 256); } png_write_info(pp, pi); if (png_get_rowbytes(pp, pi) != standard_rowsize(pp, colour_type, bit_depth)) png_error(pp, "row size incorrect"); else for (y=0; yexpect_error = !error_test[test].warning; ps->expect_warning = error_test[test].warning; ps->saw_warning = 0; error_test[test].fn(pp, pi); /* Normally the error is only detected here: */ png_write_info(pp, pi); /* And handle the case where it was only a warning: */ if (ps->expect_warning && ps->saw_warning) Throw ps; /* If we get here there is a problem, we have success, however * the Throw within the png_error will take control back to the * Catch below, and the loop will continue. */ ps->expect_error = 0; ps->expect_warning = 0; png_error(pp, error_test[test].msg); } Catch (fault) { ps->expect_error = 0; ps->expect_warning = 0; if (ps != fault) Throw fault; } ps->expect_error = 0; /* safety */ ps->expect_warning = 0; if (png_get_rowbytes(pp, pi) != standard_rowsize(pp, colour_type, bit_depth)) png_error(pp, "row size incorrect"); else for (y=0; yexpect_error = 0; store_write_reset(ps); if (ps != fault) Throw fault; } } } static void perform_error_test(png_modifier *pm) { /* Need to do this here because we just write in this test. */ safecat(pm->this.test, sizeof pm->this.test, 0, "error test"); make_error(&pm->this, 0, 0, 4); if (fail(pm)) return; make_error(&pm->this, 2, 3, 4); if (fail(pm)) return; make_error(&pm->this, 3, 0, 3); if (fail(pm)) return; make_error(&pm->this, 4, 3, 4); if (fail(pm)) return; make_error(&pm->this, 6, 3, 4); } static void test_standard(png_store* PNG_CONST ps, png_byte PNG_CONST colour_type, int PNG_CONST bdloIn, int PNG_CONST bdhi) { volatile int bdlo = bdloIn; for (; bdlo <= bdhi; ++bdlo) { context(ps, fault); PNG_CONST png_byte bit_depth = DEPTH(bdlo); png_structp pp; png_infop pi; /* Get a png_struct for writing the image. */ pp = set_store_for_read(ps, &pi, FILEID(colour_type, bit_depth), "standard"); if (pp == NULL) return; /* Do the honourable write stuff, protected by a local catch */ Try { png_uint_32 h = standard_height(pp, colour_type, bit_depth), y; size_t cb; /* Check the header values: */ png_read_info(pp, pi); if (png_get_image_width(pp, pi) != standard_width(pp, colour_type, bit_depth)) png_error(pp, "validate: image width changed"); if (png_get_image_height(pp, pi) != h) png_error(pp, "validate: image height changed"); if (png_get_bit_depth(pp, pi) != bit_depth) png_error(pp, "validate: bit depth changed"); if (png_get_color_type(pp, pi) != colour_type) png_error(pp, "validate: color type changed"); if (png_get_filter_type(pp, pi) != PNG_FILTER_TYPE_BASE) png_error(pp, "validate: filter type changed"); if (png_get_interlace_type(pp, pi) != PNG_INTERLACE_NONE) png_error(pp, "validate: interlacing changed"); if (png_get_compression_type(pp, pi) != PNG_COMPRESSION_TYPE_BASE) png_error(pp, "validate: compression type changed"); if (png_set_interlace_handling(pp) != 1) png_error(pp, "validate: interlacing unexpected"); if (colour_type == 3) /* palette */ { png_colorp pal; int num; if (png_get_PLTE(pp, pi, &pal, &num) & PNG_INFO_PLTE) { int i; if (num != 256) png_error(pp, "validate: color type 3 PLTE chunk size changed"); for (i=0; ithis, 0, 0, 4); if (fail(pm)) return; test_standard(&pm->this, 2, 3, 4); if (fail(pm)) return; test_standard(&pm->this, 3, 0, 3); if (fail(pm)) return; test_standard(&pm->this, 4, 3, 4); if (fail(pm)) return; test_standard(&pm->this, 6, 3, 4); } /********************************* GAMMA TESTS ********************************/ /* Gamma test images. */ typedef struct gamma_modification { png_modification this; png_fixed_point gamma; } gamma_modification; static int gamma_modify(png_structp pp, png_modifier *pm, png_modification *me, int add) { UNUSED(pp); UNUSED(add); /* This simply dumps the given gamma value into the buffer. */ png_save_uint_32(pm->buffer, 4); png_save_uint_32(pm->buffer+4, CHUNK_gAMA); png_save_uint_32(pm->buffer+8, ((gamma_modification*)me)->gamma); return 1; } static void gamma_modification_init(gamma_modification *me, png_modifier *pm, double gamma) { double g; modification_init(&me->this); me->this.chunk = CHUNK_gAMA; me->this.modify_fn = gamma_modify; me->this.add = CHUNK_PLTE; g = floor(gamma * 100000 + .5); me->gamma = (png_fixed_point)g; me->this.next = pm->modifications; pm->modifications = &me->this; } typedef struct srgb_modification { png_modification this; png_byte intent; } srgb_modification; static int srgb_modify(png_structp pp, png_modifier *pm, png_modification *me, int add) { UNUSED(pp); UNUSED(add); /* As above, ignore add and just make a new chunk */ png_save_uint_32(pm->buffer, 1); png_save_uint_32(pm->buffer+4, CHUNK_sRGB); pm->buffer[8] = ((srgb_modification*)me)->intent; return 1; } static void srgb_modification_init(srgb_modification *me, png_modifier *pm, png_byte intent) { modification_init(&me->this); me->this.chunk = CHUNK_sBIT; if (intent <= 3) /* if valid, else *delete* sRGB chunks */ { me->this.modify_fn = srgb_modify; me->this.add = CHUNK_PLTE; me->intent = intent; } else { me->this.modify_fn = 0; me->this.add = 0; me->intent = 0; } me->this.next = pm->modifications; pm->modifications = &me->this; } typedef struct sbit_modification { png_modification this; png_byte sbit; } sbit_modification; static int sbit_modify(png_structp pp, png_modifier *pm, png_modification *me, int add) { png_byte sbit = ((sbit_modification*)me)->sbit; if (pm->bit_depth > sbit) { int cb = 0; switch (pm->colour_type) { case 0: cb = 1; break; case 2: case 3: cb = 3; break; case 4: cb = 2; break; case 6: cb = 4; break; default: png_error(pp, "unexpected colour type in sBIT modification"); } png_save_uint_32(pm->buffer, cb); png_save_uint_32(pm->buffer+4, CHUNK_sBIT); while (cb > 0) (pm->buffer+8)[--cb] = sbit; return 1; } else if (!add) { /* Remove the sBIT chunk */ pm->buffer_count = pm->buffer_position = 0; return 1; } else return 0; /* do nothing */ } static void sbit_modification_init(sbit_modification *me, png_modifier *pm, png_byte sbit) { modification_init(&me->this); me->this.chunk = CHUNK_sBIT; me->this.modify_fn = sbit_modify; me->this.add = CHUNK_PLTE; me->sbit = sbit; me->this.next = pm->modifications; pm->modifications = &me->this; } /* maxabs: maximum absolute error as a fraction * maxout: maximum output error in the output units * maxpc: maximum percentage error (as a percentage) */ static void gamma_test(png_modifier *pm, PNG_CONST png_byte colour_type, PNG_CONST png_byte bit_depth, PNG_CONST double file_gamma, PNG_CONST double screen_gamma, PNG_CONST png_byte sbit, PNG_CONST int threshold_test, PNG_CONST char *name, PNG_CONST int speed, PNG_CONST int use_input_precision, PNG_CONST int strip16) { context(&pm->this, fault); Try { png_structp pp; png_infop pi; double maxerrout = 0, maxerrpc = 0, maxerrabs = 0; gamma_modification gamma_mod; srgb_modification srgb_mod; sbit_modification sbit_mod; /* Make an appropriate modifier to set the PNG file gamma to the * given gamma value and the sBIT chunk to the given precision. */ pm->modifications = NULL; gamma_modification_init(&gamma_mod, pm, file_gamma); srgb_modification_init(&srgb_mod, pm, 127/*delete*/); sbit_modification_init(&sbit_mod, pm, sbit); modification_reset(pm->modifications); /* Get a png_struct for writing the image, if this fails just given up by * doing a Throw to get to the Catch below. */ pp = set_modifier_for_read(pm, &pi, FILEID(colour_type, bit_depth), name); if (pp == NULL) Throw &pm->this; /* Set up gamma processing. */ png_set_gamma(pp, screen_gamma, file_gamma); /* Check the header values: */ png_read_info(pp, pi); /* If requested strip 16 to 8 bits - this is handled automagically below * because the output bit depth is read from the library. Note that there * are interactions with sBIT but, internally, libpng makes sbit at most * PNG_MAX_GAMMA_8 when doing the following. */ if (strip16) png_set_strip_16(pp); if (png_set_interlace_handling(pp) != 1) png_error(pp, "gamma: interlaced images not supported"); png_read_update_info(pp, pi); { PNG_CONST png_byte out_ct = png_get_color_type(pp, pi); PNG_CONST png_byte out_bd = png_get_bit_depth(pp, pi); PNG_CONST unsigned int outmax = (1U<= PNG_GAMMA_THRESHOLD && !threshold_test && !speed && colour_type != 3) || bit_depth != out_bd; PNG_CONST unsigned int samples_per_pixel = (out_ct & 2U) ? 3U : 1U; PNG_CONST double gamma = 1/(file_gamma*screen_gamma); /* Overall */ for (y=0; y> (bit_depth-sbit); double i, sample, encoded_sample, output, encoded_error, error; double es_lo, es_hi; /* First check on the 'perfect' result obtained from the * digitized input value, id, and compare this against the * actual digitized result, 'od'. 'i' is the input result in * the range 0..1: * * NOTE: sBIT should be taken into account here but isn't, as * described above. */ i = isbit; i /= (1U< maxerrout) maxerrout = encoded_error; if (encoded_error < .5+maxout) continue; /* There may be an error, calculate the actual sample values - * unencoded light intensity values. Note that in practice * these are not unencoded because they include a 'viewing * correction' to decrease or (normally) increase the * perceptual contrast of the image. There's nothing we can * do about this - we don't know what it is - so assume the * unencoded value is perceptually linear. */ sample = pow(i, 1/file_gamma); /* In range 0..1 */ output = od; output /= outmax; output = pow(output, screen_gamma); /* Now we have the numbers for real errors, both absolute * values as as a percentage of the correct value (output): */ error = fabs(sample-output); if (error > maxerrabs) maxerrabs = error; /* The following is an attempt to ignore the tendency of * quantization to dominate the percentage errors for low * output sample values: */ if (sample*maxpc > .5+maxabs) { double pcerr = error/sample; if (pcerr > maxerrpc) maxerrpc = pcerr; } /* Now calculate the digitization limits for 'encoded_sample' * using the 'max' values. Note that maxout is in the encoded * space but maxpc and maxabs are in linear light space. * * First find the maximum error in linear light space, range * 0..1: */ { double tmp = sample * maxpc; if (tmp < maxabs) tmp = maxabs; /* Low bound - the minimum of the three: */ es_lo = encoded_sample - maxout; if (es_lo > 0 && sample-tmp > 0) { double l = outmax * pow(sample-tmp, 1/screen_gamma); if (l < es_lo) es_lo = l; } else es_lo = 0; es_hi = encoded_sample + maxout; if (es_hi < outmax && sample+tmp < 1) { double h = outmax * pow(sample+tmp, 1/screen_gamma); if (h > es_hi) es_hi = h; } else es_hi = outmax; } /* The primary test is that the final encoded value returned * by the library should be between the two limits (inclusive) * that were calculated above. At this point quantization of * the output must be taken into account. */ if (od+.5 < es_lo || od-.5 > es_hi) { /* There has been an error in processing. */ double is_lo, is_hi; if (use_input_precision) { /* Ok, something is wrong - this actually happens in * current libpng sbit processing. Assume that the * input value (id, adjusted for sbit) can be anywhere * between value-.5 and value+.5 - quite a large range * if sbit is low. */ double tmp = (isbit - .5)/((1U< 0) { is_lo = outmax * pow(tmp, gamma) - maxout; if (is_lo < 0) is_lo = 0; } else is_lo = 0; tmp = (isbit + .5)/((1U< outmax) is_hi = outmax; } else is_hi = outmax; if (!(od+.5 < is_lo || od-.5 > is_hi)) continue; } { char msg[256]; sprintf(msg, "error: %.3f; %u{%u;%u} -> %u not %.2f (%.1f-%.1f)", od-encoded_sample, id, sbit, isbit, od, encoded_sample, use_input_precision ? is_lo : es_lo, use_input_precision ? is_hi : es_hi); png_warning(pp, msg); } } } } else if (!speed && memcmp(std, display, cb) != 0) { char msg[64]; /* No transform is expected on the threshold tests. */ sprintf(msg, "gamma: below threshold row %d (of %d) changed", y, h); png_error(pp, msg); } } } png_read_end(pp, pi); modifier_reset(pm); if (pm->log && !threshold_test && !speed) fprintf(stderr, "%d bit %s %s: max error %f (%.2g, %2g%%)\n", bit_depth, colour_types[colour_type], name, maxerrout, maxerrabs, 100*maxerrpc); /* Log the summary values too. */ if (colour_type == 0 || colour_type == 4) { switch (bit_depth) { case 1: break; case 2: if (maxerrout > pm->error_gray_2) pm->error_gray_2 = maxerrout; break; case 4: if (maxerrout > pm->error_gray_4) pm->error_gray_4 = maxerrout; break; case 8: if (maxerrout > pm->error_gray_8) pm->error_gray_8 = maxerrout; break; case 16: if (maxerrout > pm->error_gray_16) pm->error_gray_16 = maxerrout; break; default: png_error(pp, "bad bit depth (internal: 1)"); } } else if (colour_type == 2 || colour_type == 6) { switch (bit_depth) { case 8: if (maxerrout > pm->error_color_8) pm->error_color_8 = maxerrout; break; case 16: if (maxerrout > pm->error_color_16) pm->error_color_16 = maxerrout; break; default: png_error(pp, "bad bit depth (internal: 2)"); } } } Catch(fault) { modifier_reset(pm); if (fault != &pm->this) Throw fault; } } static void gamma_threshold_test(png_modifier *pm, png_byte colour_type, png_byte bit_depth, double file_gamma, double screen_gamma) { size_t pos = 0; char name[64]; pos = safecat(name, sizeof name, pos, "threshold "); pos = safecatd(name, sizeof name, pos, file_gamma, 3); pos = safecat(name, sizeof name, pos, "/"); pos = safecatd(name, sizeof name, pos, screen_gamma, 3); (void)gamma_test(pm, colour_type, bit_depth, file_gamma, screen_gamma, bit_depth, 1, name, 0/*speed*/, 0/*no input precision*/, 0/*no strip16*/); } static void perform_gamma_threshold_tests(png_modifier *pm) { png_byte colour_type = 0; png_byte bit_depth = 0; while (next_format(&colour_type, &bit_depth)) { double gamma = 1.0; while (gamma >= .4) { gamma_threshold_test(pm, colour_type, bit_depth, gamma, 1/gamma); gamma *= .95; } /* And a special test for sRGB */ gamma_threshold_test(pm, colour_type, bit_depth, .45455, 2.2); if (fail(pm)) return; } } static void gamma_transform_test(png_modifier *pm, PNG_CONST png_byte colour_type, PNG_CONST png_byte bit_depth, PNG_CONST double file_gamma, PNG_CONST double screen_gamma, PNG_CONST png_byte sbit, PNG_CONST int speed, PNG_CONST int use_input_precision, PNG_CONST int strip16) { size_t pos = 0; char name[64]; if (sbit != bit_depth) { pos = safecat(name, sizeof name, pos, "sbit("); pos = safecatn(name, sizeof name, pos, sbit); pos = safecat(name, sizeof name, pos, ") "); } else pos = safecat(name, sizeof name, pos, "gamma "); if (strip16) pos = safecat(name, sizeof name, pos, "16to8 "); pos = safecatd(name, sizeof name, pos, file_gamma, 3); pos = safecat(name, sizeof name, pos, "->"); pos = safecatd(name, sizeof name, pos, screen_gamma, 3); gamma_test(pm, colour_type, bit_depth, file_gamma, screen_gamma, sbit, 0, name, speed, use_input_precision, strip16); } static void perform_gamma_transform_tests(png_modifier *pm, int speed) { png_byte colour_type = 0; png_byte bit_depth = 0; /* Ignore palette images - the gamma correction happens on the palette entry, * haven't got the tests for this yet. */ while (next_format(&colour_type, &bit_depth)) if (colour_type != 3) { unsigned int i, j; for (i=0; ingammas; ++i) for (j=0; jngammas; ++j) if (i != j) { gamma_transform_test(pm, colour_type, bit_depth, 1/pm->gammas[i], pm->gammas[j], bit_depth, speed, pm->use_input_precision, 0/*do not strip16*/); if (fail(pm)) return; } } } static void perform_gamma_sbit_tests(png_modifier *pm, int speed) { png_byte sbit; /* The only interesting cases are colour and grayscale, alpha is ignored here * for overall speed. Only bit depths 8 and 16 are tested. */ for (sbit=pm->sbitlow; sbit<16; ++sbit) { unsigned int i, j; for (i=0; ingammas; ++i) { for (j=0; jngammas; ++j) { if (i != j) { if (sbit < 8) { gamma_transform_test(pm, 0, 8, 1/pm->gammas[i], pm->gammas[j], sbit, speed, pm->use_input_precision_sbit, 0/*strip16*/); if (fail(pm)) return; gamma_transform_test(pm, 2, 8, 1/pm->gammas[i], pm->gammas[j], sbit, speed, pm->use_input_precision_sbit, 0/*strip16*/); if (fail(pm)) return; } gamma_transform_test(pm, 0, 16, 1/pm->gammas[i], pm->gammas[j], sbit, speed, pm->use_input_precision_sbit, 0/*strip16*/); if (fail(pm)) return; gamma_transform_test(pm, 2, 16, 1/pm->gammas[i], pm->gammas[j], sbit, speed, pm->use_input_precision_sbit, 0/*strip16*/); if (fail(pm)) return; } } } } } static void perform_gamma_strip16_tests(png_modifier *pm, int speed) { # ifndef PNG_MAX_GAMMA_8 # define PNG_MAX_GAMMA_8 11 # endif /* Include the alpha cases here, not that sbit matches the internal value * used by the library - otherwise we will get spurious errors from the * internal sbit style approximation. * * The threshold test is here because otherwise the 16 to 8 conversion will * proceed *without* gamma correction, and the tests above will fail (but not * by much) - this could be fixed, it only appears with the -g option. */ unsigned int i, j; for (i=0; ingammas; ++i) { for (j=0; jngammas; ++j) { if (i != j && fabs(pm->gammas[j]/pm->gammas[i]-1) >= PNG_GAMMA_THRESHOLD) { gamma_transform_test(pm, 0, 16, 1/pm->gammas[i], pm->gammas[j], PNG_MAX_GAMMA_8, speed, pm->use_input_precision_16to8, 1/*strip16*/); if (fail(pm)) return; gamma_transform_test(pm, 2, 16, 1/pm->gammas[i], pm->gammas[j], PNG_MAX_GAMMA_8, speed, pm->use_input_precision_16to8, 1/*strip16*/); if (fail(pm)) return; gamma_transform_test(pm, 4, 16, 1/pm->gammas[i], pm->gammas[j], PNG_MAX_GAMMA_8, speed, pm->use_input_precision_16to8, 1/*strip16*/); if (fail(pm)) return; gamma_transform_test(pm, 6, 16, 1/pm->gammas[i], pm->gammas[j], PNG_MAX_GAMMA_8, speed, pm->use_input_precision_16to8, 1/*strip16*/); if (fail(pm)) return; } } } } static void perform_gamma_test(png_modifier *pm, int speed, int summary) { /* First some arbitrary no-transform tests: */ if (!speed) { perform_gamma_threshold_tests(pm); if (fail(pm)) return; } /* Now some real transforms. */ perform_gamma_transform_tests(pm, speed); if (summary) { printf("Gamma correction error summary (output value error):\n"); printf(" 2 bit gray: %.5f\n", pm->error_gray_2); printf(" 4 bit gray: %.5f\n", pm->error_gray_4); printf(" 8 bit gray: %.5f\n", pm->error_gray_8); printf(" 16 bit gray: %.5f\n", pm->error_gray_16); printf(" 8 bit color: %.5f\n", pm->error_color_8); printf(" 16 bit color: %.5f\n", pm->error_color_16); } /* The sbit tests produce much larger errors: */ pm->error_gray_2 = pm->error_gray_4 = pm->error_gray_8 = pm->error_gray_16 = pm->error_color_8 = pm->error_color_16 = 0; perform_gamma_sbit_tests(pm, speed); if (summary) { printf("Gamma correction with sBIT:\n"); if (pm->sbitlow < 8U) { printf(" 2 bit gray: %.5f\n", pm->error_gray_2); printf(" 4 bit gray: %.5f\n", pm->error_gray_4); printf(" 8 bit gray: %.5f\n", pm->error_gray_8); } printf(" 16 bit gray: %.5f\n", pm->error_gray_16); if (pm->sbitlow < 8U) printf(" 8 bit color: %.5f\n", pm->error_color_8); printf(" 16 bit color: %.5f\n", pm->error_color_16); } /* The 16 to 8 bit strip operations: */ pm->error_gray_2 = pm->error_gray_4 = pm->error_gray_8 = pm->error_gray_16 = pm->error_color_8 = pm->error_color_16 = 0; perform_gamma_strip16_tests(pm, speed); if (summary) { printf("Gamma correction with 16 to 8 bit reduction:\n"); printf(" 16 bit gray: %.5f\n", pm->error_gray_16); printf(" 16 bit color: %.5f\n", pm->error_color_16); } } /* main program */ int main(int argc, PNG_CONST char **argv) { volatile int summary = 1; /* Print the error sumamry at the end */ volatile int speed = 0; /* Speed test only (for gamma stuff) */ /* Create the given output file on success: */ PNG_CONST char *volatile touch = NULL; /* This is an array of standard gamma values (believe it or not I've seen * every one of these mentioned somewhere.) * * In the following list the most useful values are first! */ static double gammas[]={2.2, 1.0, 2.2/1.45, 1.8, 1.5, 2.4, 2.5, 2.62, 2.9}; png_modifier pm; context(&pm.this, fault); modifier_init(&pm); /* Default to error on warning: */ pm.this.treat_warnings_as_errors = 1; /* Store the test gammas */ pm.gammas = gammas; pm.ngammas = 3U; /* for speed */ pm.sbitlow = 8U; /* because libpng doesn't do sBIT below 8! */ pm.use_input_precision_16to8 = 1U; /* Because of the way libpng does it */ /* Some default values (set the behavior for 'make check' here) */ pm.maxout8 = .1; /* Arithmetic error in *encoded* value */ pm.maxabs8 = .00005; /* 1/20000 */ pm.maxpc8 = .499; /* I.e. .499% fractional error */ pm.maxout16 = .499; /* Error in *encoded* value */ pm.maxabs16 = .00005;/* 1/20000 */ /* NOTE: this is a reasonable perceptual limit, we assume that humans can * perceive light level differences of 1% over a 100:1 range, so we need to * maintain 1 in 10000 accuracy (in linear light space), this is what the * following guarantees. It also allows significantly higher errors at * higher 16 bit values, which is important for performance. The actual * maximum 16 bit error is about +/-1.9 in the fixed point implementation but * this is only allowed for values >38149 by the following: */ pm.maxpc16 = .005; /* I.e. 1/200% - 1/20000 */ /* Now parse the command line options. */ while (--argc >= 1) { if (strcmp(*++argv, "-v") == 0) pm.this.verbose = 1; else if (strcmp(*argv, "-l") == 0) pm.log = 1; else if (strcmp(*argv, "-q") == 0) summary = pm.this.verbose = pm.log = 0; else if (strcmp(*argv, "-g") == 0) pm.ngammas = (sizeof gammas)/(sizeof gammas[0]); else if (strcmp(*argv, "-w") == 0) pm.this.treat_warnings_as_errors = 0; else if (strcmp(*argv, "--speed") == 0) speed = 1, pm.ngammas = (sizeof gammas)/(sizeof gammas[0]); else if (argc >= 1 && strcmp(*argv, "--sbitlow") == 0) --argc, pm.sbitlow = (png_byte)atoi(*++argv); else if (argc >= 1 && strcmp(*argv, "--touch") == 0) --argc, touch = *++argv; else if (argc >= 1 && strncmp(*argv, "--max", 4) == 0) { --argc; if (strcmp(4+*argv, "abs8") == 0) pm.maxabs8 = atof(*++argv); else if (strcmp(4+*argv, "abs16") == 0) pm.maxabs16 = atof(*++argv); else if (strcmp(4+*argv, "out8") == 0) pm.maxout8 = atof(*++argv); else if (strcmp(4+*argv, "out16") == 0) pm.maxout16 = atof(*++argv); else if (strcmp(4+*argv, "pc8") == 0) pm.maxpc8 = atof(*++argv); else if (strcmp(4+*argv, "pc16") == 0) pm.maxpc16 = atof(*++argv); else { fprintf(stderr, "pngvalid: %s: unknown 'max' option\n", *argv); exit(1); } } else { fprintf(stderr, "pngvalid: %s: unknown argument\n", *argv); exit(1); } } Try { /* Make useful base images */ make_standard_images(&pm.this); /* Perform the standard and gamma tests. */ if (!speed) { perform_standard_test(&pm); perform_error_test(&pm); } perform_gamma_test(&pm, speed != 0, summary && !speed); } Catch(fault) { fprintf(stderr, "pngvalid: test aborted\n"); exit(1); } if (summary && !speed) printf("Results using %s point arithmetic %s\n", #if defined(PNG_FLOATING_ARITHMETIC_SUPPORTED) || PNG_LIBPNG_VER < 10500 "floating", #else "fixed", #endif (pm.this.nerrors || (pm.this.treat_warnings_as_errors && pm.this.nwarnings)) ? "(errors)" : (pm.this.nwarnings ? "(warnings)" : "(no errors or warnings)") ); /* Error exit if there are any errors, and maybe if there are any * warnings. */ if (pm.this.nerrors || (pm.this.treat_warnings_as_errors && pm.this.nwarnings)) { if (!pm.this.verbose) fprintf(stderr, "pngvalid: %s\n", pm.this.error); fprintf(stderr, "pngvalid: %d errors, %d warnings\n", pm.this.nerrors, pm.this.nwarnings); exit(1); } /* Success case. */ if (touch != NULL) { FILE *fsuccess = fopen(touch, "wt"); if (fsuccess != NULL) { int error = 0; fprintf(fsuccess, "PNG validation succeeded\n"); fflush(fsuccess); error = ferror(fsuccess); if (fclose(fsuccess) || error) { fprintf(stderr, "%s: write failed\n", touch); exit(1); } } } return 0; }