/* cairo-trace - a utility to record and replay calls to the Cairo library. * * Copyright © 2008 Chris Wilson * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #define _GNU_SOURCE #ifdef HAVE_CONFIG_H #include "config.h" #endif /* The autoconf on OpenBSD 4.5 produces the malformed constant name * SIZEOF_VOID__ rather than SIZEOF_VOID_P. Work around that here. */ #if !defined(SIZEOF_VOID_P) && defined(SIZEOF_VOID__) # define SIZEOF_VOID_P SIZEOF_VOID__ #endif #include #include #include #include #include #include #include #include #include #include #include /* for locale independent %f printing */ #include #include #include #include #include #include #if CAIRO_HAS_FT_FONT # include #endif #ifndef TRUE #define TRUE 1 #define FALSE 0 #endif #ifndef CAIRO_TRACE_OUTDIR #define CAIRO_TRACE_OUTDIR "." #endif #if HAVE_BYTESWAP_H # include #endif #ifndef bswap_16 # define bswap_16(p) \ (((((uint16_t)(p)) & 0x00ff) << 8) | \ (((uint16_t)(p)) >> 8)) #endif #ifndef bswap_32 # define bswap_32(p) \ (((((uint32_t)(p)) & 0x000000ff) << 24) | \ ((((uint32_t)(p)) & 0x0000ff00) << 8) | \ ((((uint32_t)(p)) & 0x00ff0000) >> 8) | \ ((((uint32_t)(p))) >> 24)) #endif #if WORDS_BIGENDIAN #define le16(x) bswap_16 (x) #define le32(x) bswap_32 (x) #define be16(x) x #define be32(x) x #define to_be32(x) x #else #define le16(x) x #define le32(x) x #define be16(x) bswap_16 (x) #define be32(x) bswap_32 (x) #define to_be32(x) bswap_32 (x) #endif #if CAIRO_HAS_SYMBOL_LOOKUP #include "lookup-symbol.h" #endif /* Reverse the bits in a byte with 7 operations (no 64-bit): * Devised by Sean Anderson, July 13, 2001. * Source: http://graphics.stanford.edu/~seander/bithacks.html#ReverseByteWith32Bits */ #define CAIRO_BITSWAP8(c) ((((c) * 0x0802LU & 0x22110LU) | ((c) * 0x8020LU & 0x88440LU)) * 0x10101LU >> 16) #if __GNUC__ > 2 || (__GNUC__ == 2 && __GNUC_MINOR__ > 4) #define CAIRO_PRINTF_FORMAT(fmt_index, va_index) \ __attribute__((__format__(__printf__, fmt_index, va_index))) #else #define CAIRO_PRINTF_FORMAT(fmt_index, va_index) #endif /* XXX implement manual vprintf so that the user can control precision of * printed numbers. */ static void *_dlhandle = RTLD_NEXT; #define DLCALL(name, args...) ({ \ static typeof (&name) name##_real; \ if (name##_real == NULL) { \ name##_real = (typeof (&name))(dlsym (_dlhandle, #name)); \ if (name##_real == NULL && _dlhandle == RTLD_NEXT) { \ _dlhandle = dlopen ("libcairo." SHARED_LIB_EXT, RTLD_LAZY); \ name##_real = (typeof (&name))(dlsym (_dlhandle, #name)); \ assert (name##_real != NULL); \ } \ } \ (*name##_real) (args); \ }) #define ARRAY_SIZE(a) (sizeof (a) / sizeof (a[0])) #define ARRAY_LENGTH(a) ((int) ARRAY_SIZE(a)) #if SIZEOF_VOID_P == 4 #define PTR_SHIFT 2 #elif SIZEOF_VOID_P == 8 #define PTR_SHIFT 3 #else #error Unexpected pointer size #endif #define BUCKET(b, ptr) (((unsigned long) (ptr) >> PTR_SHIFT) % ARRAY_LENGTH (b)) #if defined(__GNUC__) && (__GNUC__ > 2) && defined(__OPTIMIZE__) #define _BOOLEAN_EXPR(expr) \ __extension__ ({ \ int _boolean_var_; \ if (expr) \ _boolean_var_ = 1; \ else \ _boolean_var_ = 0; \ _boolean_var_; \ }) #define LIKELY(expr) (__builtin_expect (_BOOLEAN_EXPR(expr), 1)) #define UNLIKELY(expr) (__builtin_expect (_BOOLEAN_EXPR(expr), 0)) #else #define LIKELY(expr) (expr) #define UNLIKELY(expr) (expr) #endif typedef struct _object Object; typedef struct _type Type; struct _object { const void *addr; Type *type; unsigned long int token; int width, height; cairo_bool_t foreign; cairo_bool_t defined; int operand; void *data; void (*destroy)(void *); Object *next, *prev; }; struct _type { const char *name; enum operand_type { NONE, SURFACE, CONTEXT, FONT_FACE, PATTERN, SCALED_FONT, _N_OP_TYPES } op_type; const char *op_code; pthread_mutex_t mutex; struct _bitmap { unsigned long int min; unsigned long int count; unsigned int map[64]; struct _bitmap *next; } map; Object *objects[607]; Type *next; }; static struct _type_table { pthread_mutex_t mutex; Type *op_types[_N_OP_TYPES]; } Types; static FILE *logfile; static cairo_bool_t _flush; static cairo_bool_t _error; static cairo_bool_t _line_info; static cairo_bool_t _mark_dirty; static const cairo_user_data_key_t destroy_key; static pthread_once_t once_control = PTHREAD_ONCE_INIT; static pthread_key_t counter_key; static void _init_trace (void); #define INIT_TRACE_ONCE() pthread_once (&once_control, _init_trace) #if __GNUC__ >= 3 && defined(__ELF__) && !defined(__sun) # define _enter_trace() INIT_TRACE_ONCE () # define _exit_trace() do { } while (0) # define _should_trace() 1 # define USE_ENTER_EXIT 0 #else static void _enter_trace (void); static void _exit_trace (void); static cairo_bool_t _should_trace (void); # define USE_ENTER_EXIT 1 #endif #if HAVE_BUILTIN_RETURN_ADDRESS && CAIRO_HAS_SYMBOL_LOOKUP #define _emit_line_info() do { \ if (_line_info && _write_lock ()) { \ void *addr = __builtin_return_address(0); \ char caller[1024]; \ _trace_printf ("%% %s() called by %s\n", __FUNCTION__, \ lookup_symbol (caller, sizeof (caller), addr)); \ _write_unlock (); \ } \ } while (0) #else #define _emit_line_info() #endif static void _type_release_token (Type *t, unsigned long int token) { struct _bitmap *b, **prev = NULL; b = &t->map; while (b != NULL) { if (token < b->min + sizeof (b->map) * CHAR_BIT) { unsigned int bit, elem; token -= b->min; elem = token / (sizeof (b->map[0]) * CHAR_BIT); bit = token % (sizeof (b->map[0]) * CHAR_BIT); b->map[elem] &= ~(1 << bit); if (! --b->count && prev) { *prev = b->next; free (b); } return; } prev = &b->next; b = b->next; } } static unsigned long int _type_next_token (Type *t) { struct _bitmap *b, *bb, **prev = NULL; unsigned long int min = 0; b = &t->map; while (b != NULL) { if (b->min != min) break; if (b->count < sizeof (b->map) * CHAR_BIT) { unsigned int n, m, bit; for (n = 0; n < ARRAY_SIZE (b->map); n++) { if (b->map[n] == (unsigned int) -1) continue; for (m=0, bit=1; mmap[0])*CHAR_BIT; m++, bit<<=1) { if ((b->map[n] & bit) == 0) { b->map[n] |= bit; b->count++; return n * sizeof (b->map[0])*CHAR_BIT + m + b->min; } } } } min += sizeof (b->map) * CHAR_BIT; prev = &b->next; b = b->next; } bb = malloc (sizeof (struct _bitmap)); *prev = bb; bb->next = b; bb->min = min; bb->count = 1; bb->map[0] = 0x1; memset (bb->map + 1, 0, sizeof (bb->map) - sizeof (bb->map[0])); return min; } static void _object_destroy (Object *obj) { int bucket; pthread_mutex_lock (&obj->type->mutex); bucket = BUCKET (obj->type->objects, obj->addr); _type_release_token (obj->type, obj->token); if (obj->prev != NULL) obj->prev->next = obj->next; else obj->type->objects[bucket] = obj->next; if (obj->next != NULL) obj->next->prev = obj->prev; pthread_mutex_unlock (&obj->type->mutex); if (obj->data != NULL && obj->destroy != NULL) obj->destroy (obj->data); free (obj); } static void _type_create (const char *typename, enum operand_type op_type, const char *op_code) { Type *t; pthread_mutex_lock (&Types.mutex); t = malloc (sizeof (Type)); t->name = typename; t->op_type = op_type; t->op_code = op_code; pthread_mutex_init (&t->mutex, NULL); t->map.min = 0; t->map.count = 0; memset (t->map.map, 0, sizeof (t->map.map)); t->map.next = NULL; memset (t->objects, 0, sizeof (t->objects)); t->next = NULL; Types.op_types[op_type] = t; pthread_mutex_unlock (&Types.mutex); } static Type * _get_type (enum operand_type type) { return Types.op_types[type]; } static void _type_destroy (Type *t) { int n; struct _bitmap *b; for (n = 0; n < ARRAY_LENGTH (t->objects); n++) { Object *obj = t->objects[n]; while (obj != NULL) { Object *next = obj->next; _object_destroy (obj); obj = next; } } b = t->map.next; while (b != NULL) { struct _bitmap *next = b->next; free (b); b = next; } pthread_mutex_destroy (&t->mutex); free (t); } static Object * _type_get_object (Type *type, const void *ptr) { Object *obj; int bucket = BUCKET (type->objects, ptr); for (obj = type->objects[bucket]; obj != NULL; obj = obj->next) { if (obj->addr == ptr) { if (obj->prev != NULL) { /* mru */ obj->prev->next = obj->next; if (obj->next != NULL) obj->next->prev = obj->prev; obj->prev = NULL; type->objects[bucket]->prev = obj; obj->next = type->objects[bucket]; type->objects[bucket] = obj; } return obj; } } return NULL; } static Object * _object_create (Type *type, const void *ptr) { Object *obj; int bucket = BUCKET (type->objects, ptr); obj = malloc (sizeof (Object)); obj->defined = FALSE; obj->foreign = FALSE; obj->operand = -1; obj->type = type; obj->addr = ptr; obj->token = _type_next_token (type); obj->data = NULL; obj->destroy = NULL; obj->prev = NULL; obj->next = type->objects[bucket]; if (type->objects[bucket] != NULL) type->objects[bucket]->prev = obj; type->objects[bucket] = obj; return obj; } #if USE_ENTER_EXIT static int * _get_counter (void) { int *counter = pthread_getspecific (counter_key); if (counter == NULL) { counter = calloc(1, sizeof(int)); pthread_setspecific (counter_key, counter); } return counter; } static void _enter_trace (void) { INIT_TRACE_ONCE (); _get_counter ()[0]++; } static void _exit_trace (void) { _get_counter ()[0]--; } static cairo_bool_t _should_trace (void) { return _get_counter ()[0] <= 1; } #endif /* USE_ENTER_EXIT */ static void _init_trace (void) { pthread_mutex_init (&Types.mutex, NULL); pthread_key_create (&counter_key, free); _type_create ("unclassed", NONE, ""); _type_create ("cairo_t", CONTEXT, "c"); _type_create ("cairo_font_face_t", FONT_FACE, "f"); _type_create ("cairo_pattern_t", PATTERN, "p"); _type_create ("cairo_scaled_font_t", SCALED_FONT, "sf"); _type_create ("cairo_surface_t", SURFACE, "s"); } static void _close_trace (void) { if (logfile != NULL) { fclose (logfile); logfile = NULL; } } static void __attribute__ ((destructor)) _fini_trace (void) { int n; _close_trace (); for (n = 0; n < ARRAY_LENGTH (Types.op_types); n++) { if (Types.op_types[n]) { _type_destroy (Types.op_types[n]); Types.op_types[n] = NULL; } } pthread_mutex_destroy (&Types.mutex); } /* Format a double in a locale independent way and trim trailing * zeros. Based on code from Alex Larson . * http://mail.gnome.org/archives/gtk-devel-list/2001-October/msg00087.html * * The code in the patch is copyright Red Hat, Inc under the LGPL. */ #define SIGNIFICANT_DIGITS_AFTER_DECIMAL 6 static void _trace_dtostr (char *buffer, size_t size, double d) { struct lconv *locale_data; const char *decimal_point; int decimal_point_len; char *p; int decimal_len; int num_zeros, decimal_digits; /* Omit the minus sign from negative zero. */ if (d == 0.0) d = 0.0; locale_data = localeconv (); decimal_point = locale_data->decimal_point; decimal_point_len = strlen (decimal_point); /* Using "%f" to print numbers less than 0.1 will result in * reduced precision due to the default 6 digits after the * decimal point. * * For numbers is < 0.1, we print with maximum precision and count * the number of zeros between the decimal point and the first * significant digit. We then print the number again with the * number of decimal places that gives us the required number of * significant digits. This ensures the number is correctly * rounded. */ if (fabs (d) >= 0.1) { snprintf (buffer, size, "%f", d); } else { snprintf (buffer, size, "%.18f", d); p = buffer; if (*p == '+' || *p == '-') p++; while (isdigit (*p)) p++; if (strncmp (p, decimal_point, decimal_point_len) == 0) p += decimal_point_len; num_zeros = 0; while (*p++ == '0') num_zeros++; decimal_digits = num_zeros + SIGNIFICANT_DIGITS_AFTER_DECIMAL; if (decimal_digits < 18) snprintf (buffer, size, "%.*f", decimal_digits, d); } p = buffer; if (*p == '+' || *p == '-') p++; while (isdigit (*p)) p++; if (strncmp (p, decimal_point, decimal_point_len) == 0) { *p = '.'; decimal_len = strlen (p + decimal_point_len); memmove (p + 1, p + decimal_point_len, decimal_len); p[1 + decimal_len] = 0; /* Remove trailing zeros and decimal point if possible. */ for (p = p + decimal_len; *p == '0'; p--) *p = 0; if (*p == '.') { *p = 0; p--; } } } enum { LENGTH_MODIFIER_LONG = 0x100 }; /* Here's a limited reimplementation of printf. The reason for doing * this is primarily to special case handling of doubles. We want * locale independent formatting of doubles and we want to trim * trailing zeros. This is handled by dtostr() above, and the code * below handles everything else by calling snprintf() to do the * formatting. This functionality is only for internal use and we * only implement the formats we actually use. */ static void CAIRO_PRINTF_FORMAT(1, 0) _trace_vprintf (const char *fmt, va_list ap) { #define SINGLE_FMT_BUFFER_SIZE 32 char buffer[512], single_fmt[SINGLE_FMT_BUFFER_SIZE]; int single_fmt_length; char *p; const char *f, *start; int length_modifier, width; cairo_bool_t var_width; int ret_ignored; assert (_should_trace ()); f = fmt; p = buffer; while (*f != '\0') { if (*f != '%') { *p++ = *f++; continue; } start = f; f++; if (*f == '0') f++; var_width = 0; if (*f == '*') { var_width = 1; f++; } while (isdigit (*f)) f++; length_modifier = 0; if (*f == 'l') { length_modifier = LENGTH_MODIFIER_LONG; f++; } /* The only format strings exist in the cairo implementation * itself. So there's an internal consistency problem if any * of them is larger than our format buffer size. */ single_fmt_length = f - start + 1; /* Reuse the format string for this conversion. */ memcpy (single_fmt, start, single_fmt_length); single_fmt[single_fmt_length] = '\0'; /* Flush contents of buffer before snprintf()'ing into it. */ ret_ignored = fwrite (buffer, 1, p-buffer, logfile); /* We group signed and unsigned together in this switch, the * only thing that matters here is the size of the arguments, * since we're just passing the data through to sprintf(). */ switch (*f | length_modifier) { case '%': buffer[0] = *f; buffer[1] = 0; break; case 'd': case 'u': case 'o': case 'x': case 'X': if (var_width) { width = va_arg (ap, int); snprintf (buffer, sizeof buffer, single_fmt, width, va_arg (ap, int)); } else { snprintf (buffer, sizeof buffer, single_fmt, va_arg (ap, int)); } break; case 'd' | LENGTH_MODIFIER_LONG: case 'u' | LENGTH_MODIFIER_LONG: case 'o' | LENGTH_MODIFIER_LONG: case 'x' | LENGTH_MODIFIER_LONG: case 'X' | LENGTH_MODIFIER_LONG: if (var_width) { width = va_arg (ap, int); snprintf (buffer, sizeof buffer, single_fmt, width, va_arg (ap, long int)); } else { snprintf (buffer, sizeof buffer, single_fmt, va_arg (ap, long int)); } break; case 's': snprintf (buffer, sizeof buffer, single_fmt, va_arg (ap, const char *)); break; case 'f': case 'g': _trace_dtostr (buffer, sizeof buffer, va_arg (ap, double)); break; case 'c': buffer[0] = va_arg (ap, int); buffer[1] = 0; break; default: break; } p = buffer + strlen (buffer); f++; } ret_ignored = fwrite (buffer, 1, p-buffer, logfile); (void)ret_ignored; } static void CAIRO_PRINTF_FORMAT(1, 2) _trace_printf (const char *fmt, ...) { va_list ap; va_start (ap, fmt); _trace_vprintf (fmt, ap); va_end (ap); } static void get_prog_name (char *buf, int length) { char *slash; FILE *file; memset (buf, 0, length); if (length == 0) return; file = fopen ("/proc/self/cmdline", "rb"); if (file != NULL) { slash = fgets (buf, length, file); fclose (file); if (slash == NULL) return; } else { char const *name = getenv ("CAIRO_TRACE_PROG_NAME"); if (name != NULL) { strncpy (buf, name, length-1); } } slash = strrchr (buf, '/'); if (slash != NULL) { size_t len = strlen (slash+1); memmove (buf, slash+1, len+1); } } static void _emit_header (void) { char name[4096] = ""; get_prog_name (name, sizeof (name)); _trace_printf ("%%!CairoScript - %s\n", name); } static cairo_bool_t _init_logfile (void) { static cairo_bool_t initialized; char buf[4096]; const char *filename; const char *env; if (initialized) return logfile != NULL; initialized = TRUE; env = getenv ("CAIRO_TRACE_FLUSH"); if (env != NULL) _flush = atoi (env); _line_info = TRUE; env = getenv ("CAIRO_TRACE_LINE_INFO"); if (env != NULL) _line_info = atoi (env); _mark_dirty = TRUE; env = getenv ("CAIRO_TRACE_MARK_DIRTY"); if (env != NULL) _mark_dirty = atoi (env); filename = getenv ("CAIRO_TRACE_FD"); if (filename != NULL) { int fd = atoi (filename); if (fd == -1) return FALSE; logfile = fdopen (fd, "w"); if (logfile == NULL) { fprintf (stderr, "Failed to open trace file descriptor '%s': %s\n", filename, strerror (errno)); return FALSE; } setenv ("CAIRO_TRACE_FD", "-1", 1); goto done; } filename = getenv ("CAIRO_TRACE_OUTFILE_EXACT"); if (filename == NULL) { char name[4096] = ""; filename = getenv ("CAIRO_TRACE_OUTDIR"); if (filename == NULL) filename = CAIRO_TRACE_OUTDIR; get_prog_name (name, sizeof (name)); if (*name == '\0') strcpy (name, "cairo-trace.dat"); snprintf (buf, sizeof (buf), "%s/%s.%d.trace", filename, name, getpid()); filename = buf; setenv ("CAIRO_TRACE_FD", "-1", 1); } logfile = fopen (filename, "wb"); if (logfile == NULL) { fprintf (stderr, "Failed to open trace file '%s': %s\n", filename, strerror (errno)); return FALSE; } fprintf (stderr, "cairo-trace: Recording cairo trace data to %s\n", filename); done: atexit (_close_trace); _emit_header (); return TRUE; } static cairo_bool_t _write_lock (void) { if (_error) return FALSE; if (! _should_trace ()) return FALSE; if (! _init_logfile ()) return FALSE; #if HAVE_FLOCKFILE && HAVE_FUNLOCKFILE flockfile (logfile); #endif return TRUE; } static void _write_unlock (void) { if (logfile == NULL) return; #if HAVE_FLOCKFILE && HAVE_FUNLOCKFILE funlockfile (logfile); #endif if (_flush) fflush (logfile); } static Object * _type_object_create (enum operand_type op_type, const void *ptr) { Type *type; Object *obj; type = _get_type (op_type); pthread_mutex_lock (&type->mutex); obj = _object_create (type, ptr); pthread_mutex_unlock (&type->mutex); return obj; } static Object * _get_object (enum operand_type op_type, const void *ptr) { Type *type; Object *obj; type = _get_type (op_type); pthread_mutex_lock (&type->mutex); obj = _type_get_object (type, ptr); pthread_mutex_unlock (&type->mutex); return obj; } static Object *current_object[2048]; /* XXX limit operand stack */ static int current_stack_depth; static void ensure_operands (int num_operands) { if (current_stack_depth < num_operands) { int n; fprintf (stderr, "Operand stack underflow!\n"); for (n = 0; n < current_stack_depth; n++) { Object *obj = current_object[n]; fprintf (stderr, " [%3d] = %s%ld\n", n, obj->type->op_code, obj->token); } abort (); } } static void _consume_operand (void) { Object *obj; ensure_operands (1); obj = current_object[--current_stack_depth]; if (! obj->defined) { _trace_printf ("dup /%s%ld exch def\n", obj->type->op_code, obj->token); obj->defined = TRUE; } obj->operand = -1; } static void _exch_operands (void) { Object *tmp; ensure_operands (2); tmp = current_object[current_stack_depth-1]; tmp->operand--; current_object[current_stack_depth-1] = current_object[current_stack_depth-2]; current_object[current_stack_depth-2] = tmp; tmp = current_object[current_stack_depth-1]; tmp->operand++; } static cairo_bool_t _pop_operands_to_object (Object *obj) { if (obj->operand == -1) return FALSE; if (obj->operand == current_stack_depth - 2) { _exch_operands (); _trace_printf ("exch "); return TRUE; } while (current_stack_depth > obj->operand + 1) { Object *c_obj; ensure_operands (1); c_obj = current_object[--current_stack_depth]; c_obj->operand = -1; if (! c_obj->defined) { _trace_printf ("/%s%ld exch def\n", c_obj->type->op_code, c_obj->token); c_obj->defined = TRUE; } else { _trace_printf ("pop %% %s%ld\n", c_obj->type->op_code, c_obj->token); } } return TRUE; } static cairo_bool_t _pop_operands_to (enum operand_type t, const void *ptr) { return _pop_operands_to_object (_get_object (t, ptr)); } static cairo_bool_t _is_current_object (Object *obj, int depth) { if (current_stack_depth <= depth) return FALSE; return current_object[current_stack_depth-depth-1] == obj; } static cairo_bool_t _is_current (enum operand_type type, const void *ptr, int depth) { return _is_current_object (_get_object (type, ptr), depth); } static void _push_object(Object *obj) { if (current_stack_depth == ARRAY_LENGTH (current_object)) { int n; fprintf (stderr, "Operand stack overflow!\n"); for (n = 0; n < current_stack_depth; n++) { obj = current_object[n]; fprintf (stderr, " [%3d] = %s%ld\n", n, obj->type->op_code, obj->token); } abort (); } obj->operand = current_stack_depth; current_object[current_stack_depth++] = obj; } static void _push_operand (enum operand_type t, const void *ptr) { _push_object(_get_object(t, ptr)); } static void _object_remove (Object *obj) { if (obj->operand != -1) { ensure_operands (1); if (obj->operand == current_stack_depth - 1) { _trace_printf ("pop %% %s%ld destroyed\n", obj->type->op_code, obj->token); } else if (obj->operand == current_stack_depth - 2) { _exch_operands (); _trace_printf ("exch pop %% %s%ld destroyed\n", obj->type->op_code, obj->token); } else { int n; _trace_printf ("%d -1 roll pop %% %s%ld destroyed\n", current_stack_depth - obj->operand, obj->type->op_code, obj->token); for (n = obj->operand; n < current_stack_depth - 1; n++) { current_object[n] = current_object[n+1]; current_object[n]->operand = n; } } current_stack_depth--; } } static void _object_undef (void *ptr) { Object *obj = ptr; if (_write_lock ()) { _object_remove (obj); if (obj->defined) { _trace_printf ("/%s%ld undef\n", obj->type->op_code, obj->token); } _write_unlock (); } _object_destroy (obj); } static long _create_context_id (cairo_t *cr) { Object *obj; obj = _get_object (CONTEXT, cr); if (obj == NULL) { obj = _type_object_create (CONTEXT, cr); DLCALL (cairo_set_user_data, cr, &destroy_key, obj, _object_undef); } return obj->token; } static long _get_id (enum operand_type op_type, const void *ptr) { Object *obj; obj = _get_object (op_type, ptr); if (obj == NULL) { if (logfile != NULL) { _trace_printf ("%% Unknown object of type %s, trace is incomplete.", _get_type (op_type)->name); } _error = TRUE; return -1; } return obj->token; } static cairo_bool_t _has_id (enum operand_type op_type, const void *ptr) { return _get_object (op_type, ptr) != NULL; } static long _get_context_id (cairo_t *cr) { return _get_id (CONTEXT, cr); } static long _create_font_face_id (cairo_font_face_t *font_face) { Object *obj; obj = _get_object (FONT_FACE, font_face); if (obj == NULL) { obj = _type_object_create (FONT_FACE, font_face); DLCALL (cairo_font_face_set_user_data, font_face, &destroy_key, obj, _object_undef); } return obj->token; } static long _get_font_face_id (cairo_font_face_t *font_face) { return _get_id (FONT_FACE, font_face); } static void _emit_font_face_id (cairo_font_face_t *font_face) { Object *obj = _get_object (FONT_FACE, font_face); if (obj == NULL) { _trace_printf ("null "); } else { if (obj->defined) { _trace_printf ("f%ld ", obj->token); } else { _trace_printf ("%d index ", current_stack_depth - obj->operand - 1); } } } static cairo_bool_t _has_pattern_id (cairo_pattern_t *pattern) { return _has_id (PATTERN, pattern); } static long _create_pattern_id (cairo_pattern_t *pattern) { Object *obj; obj = _get_object (PATTERN, pattern); if (obj == NULL) { obj = _type_object_create (PATTERN, pattern); DLCALL (cairo_pattern_set_user_data, pattern, &destroy_key, obj, _object_undef); } return obj->token; } static void _emit_pattern_id (cairo_pattern_t *pattern) { Object *obj = _get_object (PATTERN, pattern); if (obj == NULL) { _trace_printf ("null "); } else { if (obj->defined) { _trace_printf ("p%ld ", obj->token); } else { _trace_printf ("%d index ", current_stack_depth - obj->operand - 1); } } } static long _create_scaled_font_id (cairo_scaled_font_t *font) { Object *obj; obj = _get_object (SCALED_FONT, font); if (obj == NULL) { obj = _type_object_create (SCALED_FONT, font); DLCALL (cairo_scaled_font_set_user_data, font, &destroy_key, obj, _object_undef); } return obj->token; } static long _get_scaled_font_id (const cairo_scaled_font_t *font) { return _get_id (SCALED_FONT, font); } static cairo_bool_t _has_scaled_font_id (const cairo_scaled_font_t *font) { return _has_id (SCALED_FONT, font); } static Object * _create_surface (cairo_surface_t *surface) { Object *obj; obj = _get_object (SURFACE, surface); if (obj == NULL) { obj = _type_object_create (SURFACE, surface); DLCALL (cairo_surface_set_user_data, surface, &destroy_key, obj, _object_undef); } return obj; } static long _get_surface_id (cairo_surface_t *surface) { return _get_id (SURFACE, surface); } static cairo_bool_t _matrix_is_identity (const cairo_matrix_t *m) { return m->xx == 1. && m->yx == 0. && m->xy == 0. && m->yy == 1. && m->x0 == 0. && m->y0 == 0.; } #define BUFFER_SIZE 16384 struct _data_stream { z_stream zlib_stream; unsigned char zin_buf[BUFFER_SIZE]; unsigned char zout_buf[BUFFER_SIZE]; unsigned char four_tuple[4]; int base85_pending; }; static void _write_zlib_data_start (struct _data_stream *stream) { stream->zlib_stream.zalloc = Z_NULL; stream->zlib_stream.zfree = Z_NULL; stream->zlib_stream.opaque = Z_NULL; deflateInit (&stream->zlib_stream, Z_DEFAULT_COMPRESSION); stream->zlib_stream.next_in = stream->zin_buf; stream->zlib_stream.avail_in = 0; stream->zlib_stream.next_out = stream->zout_buf; stream->zlib_stream.avail_out = BUFFER_SIZE; } static void _write_base85_data_start (struct _data_stream *stream) { stream->base85_pending = 0; } static cairo_bool_t _expand_four_tuple_to_five (unsigned char four_tuple[4], unsigned char five_tuple[5]) { uint32_t value; int digit, i; cairo_bool_t all_zero = TRUE; value = four_tuple[0] << 24 | four_tuple[1] << 16 | four_tuple[2] << 8 | four_tuple[3] << 0; for (i = 0; i < 5; i++) { digit = value % 85; if (digit != 0 && all_zero) all_zero = FALSE; five_tuple[4-i] = digit + 33; value = value / 85; } return all_zero; } static void _write_base85_data (struct _data_stream *stream, const unsigned char *data, unsigned long length) { unsigned char five_tuple[5]; int ret; assert (_should_trace ()); while (length--) { stream->four_tuple[stream->base85_pending++] = *data++; if (stream->base85_pending == 4) { if (_expand_four_tuple_to_five (stream->four_tuple, five_tuple)) ret = fwrite ("z", 1, 1, logfile); else ret = fwrite (five_tuple, 5, 1, logfile); (void)ret; stream->base85_pending = 0; } } } static void _write_zlib_data (struct _data_stream *stream, cairo_bool_t flush) { cairo_bool_t finished; do { int ret = deflate (&stream->zlib_stream, flush ? Z_FINISH : Z_NO_FLUSH); if (flush || stream->zlib_stream.avail_out == 0) { _write_base85_data (stream, stream->zout_buf, BUFFER_SIZE - stream->zlib_stream.avail_out); stream->zlib_stream.next_out = stream->zout_buf; stream->zlib_stream.avail_out = BUFFER_SIZE; } finished = TRUE; if (stream->zlib_stream.avail_in != 0) finished = FALSE; if (flush && ret != Z_STREAM_END) finished = FALSE; } while (! finished); stream->zlib_stream.next_in = stream->zin_buf; } static void _write_data_start (struct _data_stream *stream, uint32_t len) { _write_zlib_data_start (stream); _write_base85_data_start (stream); _trace_printf ("<|"); len = to_be32 (len); _write_base85_data (stream, (unsigned char *) &len, sizeof (len)); } static void _write_data (struct _data_stream *stream, const void *data, unsigned int length) { unsigned int count; const unsigned char *p = data; while (length) { count = length; if (count > BUFFER_SIZE - stream->zlib_stream.avail_in) count = BUFFER_SIZE - stream->zlib_stream.avail_in; memcpy (stream->zin_buf + stream->zlib_stream.avail_in, p, count); p += count; stream->zlib_stream.avail_in += count; length -= count; if (stream->zlib_stream.avail_in == BUFFER_SIZE) _write_zlib_data (stream, FALSE); } } static void _write_zlib_data_end (struct _data_stream *stream) { _write_zlib_data (stream, TRUE); deflateEnd (&stream->zlib_stream); } static void _write_base85_data_end (struct _data_stream *stream) { unsigned char five_tuple[5]; int ret; assert (_should_trace ()); if (stream->base85_pending) { memset (stream->four_tuple + stream->base85_pending, 0, 4 - stream->base85_pending); _expand_four_tuple_to_five (stream->four_tuple, five_tuple); ret = fwrite (five_tuple, stream->base85_pending+1, 1, logfile); (void) ret; } } static void _write_data_end (struct _data_stream *stream) { _write_zlib_data_end (stream); _write_base85_data_end (stream); _trace_printf ("~>"); } static void _emit_data (const void *data, unsigned int length) { struct _data_stream stream; _write_data_start (&stream, length); _write_data (&stream, data, length); _write_data_end (&stream); } static const char * _format_to_string (cairo_format_t format) { #define f(name) case CAIRO_FORMAT_ ## name: return #name switch (format) { f(INVALID); f(ARGB32); f(RGB30); f(RGB24); f(RGB16_565); f(A8); f(A1); } #undef f return "UNKNOWN_FORMAT"; } static const char * _format_to_content_string (cairo_format_t format) { switch (format) { case CAIRO_FORMAT_INVALID: return "INVALID"; case CAIRO_FORMAT_ARGB32: return "COLOR_ALPHA"; case CAIRO_FORMAT_RGB30: case CAIRO_FORMAT_RGB24: case CAIRO_FORMAT_RGB16_565: return "COLOR"; case CAIRO_FORMAT_A8: case CAIRO_FORMAT_A1: return "ALPHA"; } return "UNKNOWN"; } static const char * _status_to_string (cairo_status_t status) { #define f(name) case CAIRO_STATUS_ ## name: return "STATUS_" #name switch (status) { f(SUCCESS); f(NO_MEMORY); f(INVALID_RESTORE); f(INVALID_POP_GROUP); f(NO_CURRENT_POINT); f(INVALID_MATRIX); f(INVALID_STATUS); f(NULL_POINTER); f(INVALID_STRING); f(INVALID_PATH_DATA); f(READ_ERROR); f(WRITE_ERROR); f(SURFACE_FINISHED); f(SURFACE_TYPE_MISMATCH); f(PATTERN_TYPE_MISMATCH); f(INVALID_CONTENT); f(INVALID_FORMAT); f(INVALID_VISUAL); f(FILE_NOT_FOUND); f(INVALID_DASH); f(INVALID_DSC_COMMENT); f(INVALID_INDEX); f(CLIP_NOT_REPRESENTABLE); f(TEMP_FILE_ERROR); f(INVALID_STRIDE); f(FONT_TYPE_MISMATCH); f(USER_FONT_IMMUTABLE); f(USER_FONT_ERROR); f(NEGATIVE_COUNT); f(INVALID_CLUSTERS); f(INVALID_SLANT); f(INVALID_WEIGHT); f(INVALID_SIZE); f(USER_FONT_NOT_IMPLEMENTED); f(DEVICE_TYPE_MISMATCH); f(DEVICE_ERROR); f(INVALID_MESH_CONSTRUCTION); f(DEVICE_FINISHED); case CAIRO_STATUS_LAST_STATUS: break; } return "UNKNOWN_STATUS"; #undef f } static void CAIRO_PRINTF_FORMAT(2, 3) _emit_image (cairo_surface_t *image, const char *info, ...) { int stride, row, width, height; uint32_t len; cairo_format_t format; uint8_t row_stack[BUFFER_SIZE]; uint8_t *rowdata; uint8_t *data; struct _data_stream stream; cairo_status_t status; status = DLCALL (cairo_surface_status, image); if (status) { _trace_printf ("<< /status //%s >> image", _status_to_string (status)); return; } width = DLCALL (cairo_image_surface_get_width, image); height = DLCALL (cairo_image_surface_get_height, image); stride = DLCALL (cairo_image_surface_get_stride, image); format = DLCALL (cairo_image_surface_get_format, image); data = DLCALL (cairo_image_surface_get_data, image); _trace_printf ("dict\n" " /width %d set\n" " /height %d set\n" " /format //%s set\n", width, height, _format_to_string (format)); if (info != NULL) { va_list ap; va_start (ap, info); _trace_vprintf (info, ap); va_end (ap); } if (DLCALL (cairo_version) >= CAIRO_VERSION_ENCODE (1, 9, 0)) { const char *mime_types[] = { CAIRO_MIME_TYPE_JPEG, CAIRO_MIME_TYPE_JP2, CAIRO_MIME_TYPE_PNG, NULL }, **mime_type; for (mime_type = mime_types; *mime_type; mime_type++) { const unsigned char *mime_data; unsigned long mime_length; DLCALL (cairo_surface_get_mime_data, image, *mime_type, &mime_data, &mime_length); if (mime_data != NULL) { _trace_printf (" /mime-type (%s) set\n" " /source <~", *mime_type); _write_base85_data_start (&stream); _write_base85_data (&stream, mime_data, mime_length); _write_base85_data_end (&stream); _trace_printf ("~> set\n" " image"); return; } } } switch (format) { case CAIRO_FORMAT_A1: len = (width + 7)/8; break; case CAIRO_FORMAT_A8: len = width; break; case CAIRO_FORMAT_RGB16_565: len = 2*width; break; case CAIRO_FORMAT_RGB24: len = 3*width; break; default: case CAIRO_FORMAT_RGB30: case CAIRO_FORMAT_INVALID: case CAIRO_FORMAT_ARGB32: len = 4*width; break; } _trace_printf (" /source "); _write_data_start (&stream, len * height); #ifdef WORDS_BIGENDIAN switch (format) { case CAIRO_FORMAT_A1: for (row = height; row--; ) { _write_data (&stream, data, (width+7)/8); data += stride; } break; case CAIRO_FORMAT_A8: for (row = height; row--; ) { _write_data (&stream, data, width); data += stride; } break; case CAIRO_FORMAT_RGB16_565: for (row = height; row--; ) { _write_data (&stream, data, 2*width); data += stride; } break; case CAIRO_FORMAT_RGB24: for (row = height; row--; ) { int col; rowdata = data; for (col = width; col--; ) { _write_data (&stream, rowdata, 3); rowdata+=4; } data += stride; } break; case CAIRO_FORMAT_RGB30: case CAIRO_FORMAT_ARGB32: for (row = height; row--; ) { _write_data (&stream, data, 4*width); data += stride; } break; case CAIRO_FORMAT_INVALID: default: break; } #else if (stride > ARRAY_LENGTH (row_stack)) { rowdata = malloc (stride); if (rowdata == NULL) goto BAIL; } else rowdata = row_stack; switch (format) { case CAIRO_FORMAT_A1: for (row = height; row--; ) { int col; for (col = 0; col < (width + 7)/8; col++) rowdata[col] = CAIRO_BITSWAP8 (data[col]); _write_data (&stream, rowdata, (width+7)/8); data += stride; } break; case CAIRO_FORMAT_A8: for (row = height; row--; ) { _write_data (&stream, rowdata, width); data += stride; } break; case CAIRO_FORMAT_RGB16_565: /* XXX endianness */ for (row = height; row--; ) { uint16_t *src = (uint16_t *) data; uint16_t *dst = (uint16_t *)rowdata; int col; for (col = 0; col < width; col++) dst[col] = bswap_16 (src[col]); _write_data (&stream, rowdata, 2*width); data += stride; } break; case CAIRO_FORMAT_RGB24: for (row = height; row--; ) { uint8_t *src = data; int col; for (col = 0; col < width; col++) { rowdata[3*col+2] = *src++; rowdata[3*col+1] = *src++; rowdata[3*col+0] = *src++; src++; } _write_data (&stream, rowdata, 3*width); data += stride; } break; case CAIRO_FORMAT_RGB30: case CAIRO_FORMAT_ARGB32: for (row = height; row--; ) { uint32_t *src = (uint32_t *) data; uint32_t *dst = (uint32_t *) rowdata; int col; for (col = 0; col < width; col++) dst[col] = bswap_32 (src[col]); _write_data (&stream, rowdata, 4*width); data += stride; } break; case CAIRO_FORMAT_INVALID: default: break; } if (rowdata != row_stack) free (rowdata); BAIL: _write_data_end (&stream); #endif _trace_printf (" set\n image"); } static void _encode_string_literal (char *out, int max, const char *utf8, int len) { char c; const char *end; *out++ = '('; max--; if (utf8 == NULL) goto DONE; if (len < 0) len = strlen (utf8); end = utf8 + len; while (utf8 < end) { if (max < 5) break; switch ((c = *utf8++)) { case '\n': *out++ = '\\'; *out++ = 'n'; max -= 2; break; case '\r': *out++ = '\\'; *out++ = 'r'; max -= 2; case '\t': *out++ = '\\'; *out++ = 't'; max -= 2; break; case '\b': *out++ = '\\'; *out++ = 'b'; max -= 2; break; case '\f': *out++ = '\\'; *out++ = 'f'; max -= 2; break; case '\\': case '(': case ')': *out++ = '\\'; *out++ = c; max -= 2; break; default: if (isprint (c) || isspace (c)) { *out++ = c; } else { int octal = 0; while (c) { octal *= 10; octal += c&7; c /= 8; } octal = snprintf (out, max, "\\%03d", octal); out += octal; max -= octal; } break; } } DONE: *out++ = ')'; *out = '\0'; } static void to_octal (int value, char *buf, size_t size) { do { buf[--size] = '0' + (value & 7); value >>= 3; } while (size); } static void _emit_string_literal (const char *utf8, int len) { char c; const char *end; if (utf8 == NULL) { _trace_printf ("()"); return; } if (len < 0) len = strlen (utf8); end = utf8 + len; _trace_printf ("("); while (utf8 < end) { switch ((c = *utf8++)) { case '\n': c = 'n'; goto ESCAPED_CHAR; case '\r': c = 'r'; goto ESCAPED_CHAR; case '\t': c = 't'; goto ESCAPED_CHAR; case '\b': c = 'b'; goto ESCAPED_CHAR; case '\f': c = 'f'; goto ESCAPED_CHAR; case '\\': case '(': case ')': ESCAPED_CHAR: _trace_printf ("\\%c", c); break; default: if (isprint (c) || isspace (c)) { _trace_printf ("%c", c); } else { char buf[4] = { '\\' }; int ret_ignored; to_octal (c, buf+1, 3); ret_ignored = fwrite (buf, 4, 1, logfile); (void)ret_ignored; } break; } } _trace_printf (")"); } static void _emit_current (Object *obj) { if (obj != NULL && ! _pop_operands_to_object (obj)) { _trace_printf ("%s%ld\n", obj->type->op_code, obj->token); _push_object (obj); } } static void _emit_context (cairo_t *cr) { _emit_current (_get_object (CONTEXT, cr)); } static void _emit_pattern (cairo_pattern_t *pattern) { _emit_current (_get_object (PATTERN, pattern)); } static void _emit_surface (cairo_surface_t *surface) { _emit_current (_get_object (SURFACE, surface)); } static void CAIRO_PRINTF_FORMAT(2, 3) _emit_cairo_op (cairo_t *cr, const char *fmt, ...) { va_list ap; if (cr == NULL || ! _write_lock ()) return; _emit_context (cr); va_start (ap, fmt); _trace_vprintf ( fmt, ap); va_end (ap); _write_unlock (); } cairo_t * cairo_create (cairo_surface_t *target) { cairo_t *ret; long surface_id; long context_id; _enter_trace (); ret = DLCALL (cairo_create, target); context_id = _create_context_id (ret); _emit_line_info (); if (target != NULL && _write_lock ()) { surface_id = _get_surface_id (target); if (surface_id != -1) { _get_object (SURFACE, target)->foreign = FALSE; /* we presume that we will continue to use the context */ if (_pop_operands_to (SURFACE, target)){ _consume_operand (); } else { _trace_printf ("s%ld ", surface_id); } _trace_printf ("context %% c%ld\n", context_id); _push_operand (CONTEXT, ret); } _write_unlock (); } _exit_trace (); return ret; } void cairo_save (cairo_t *cr) { _enter_trace (); _emit_line_info (); _emit_cairo_op (cr, "save\n"); DLCALL (cairo_save, cr); _exit_trace (); } void cairo_restore (cairo_t *cr) { _enter_trace (); _emit_line_info (); _emit_cairo_op (cr, "restore\n"); DLCALL (cairo_restore, cr); _exit_trace (); } void cairo_push_group (cairo_t *cr) { _enter_trace (); _emit_line_info (); _emit_cairo_op (cr, "//COLOR_ALPHA push-group\n"); DLCALL (cairo_push_group, cr); _exit_trace (); } static const char * _content_to_string (cairo_content_t content) { switch (content) { case CAIRO_CONTENT_ALPHA: return "ALPHA"; case CAIRO_CONTENT_COLOR: return "COLOR"; default: case CAIRO_CONTENT_COLOR_ALPHA: return "COLOR_ALPHA"; } } void cairo_push_group_with_content (cairo_t *cr, cairo_content_t content) { _enter_trace (); _emit_line_info (); _emit_cairo_op (cr, "//%s push-group\n", _content_to_string (content)); DLCALL (cairo_push_group_with_content, cr, content); _exit_trace (); } cairo_pattern_t * cairo_pop_group (cairo_t *cr) { cairo_pattern_t *ret; _enter_trace (); ret = DLCALL (cairo_pop_group, cr); _emit_line_info (); _emit_cairo_op (cr, "pop-group %% p%ld\n", _create_pattern_id (ret)); _push_operand (PATTERN, ret); _exit_trace (); return ret; } void cairo_pop_group_to_source (cairo_t *cr) { _enter_trace (); _emit_line_info (); _emit_cairo_op (cr, "pop-group set-source\n"); DLCALL (cairo_pop_group_to_source, cr); _exit_trace (); } static const char * _operator_to_string (cairo_operator_t op) { #define f(name) case CAIRO_OPERATOR_ ## name: return #name switch (op) { f(OVER); f(SOURCE); f(CLEAR); f(IN); f(OUT); f(ATOP); f(DEST); f(DEST_OVER); f(DEST_IN); f(DEST_OUT); f(DEST_ATOP); f(XOR); f(ADD); f(SATURATE); f(MULTIPLY); f(SCREEN); f(OVERLAY); f(DARKEN); f(LIGHTEN); case CAIRO_OPERATOR_COLOR_DODGE: return "DODGE"; case CAIRO_OPERATOR_COLOR_BURN: return "BURN"; f(HARD_LIGHT); f(SOFT_LIGHT); f(DIFFERENCE); f(EXCLUSION); f(HSL_HUE); f(HSL_SATURATION); f(HSL_COLOR); f(HSL_LUMINOSITY); } #undef f return "UNKNOWN_OPERATOR"; } void cairo_set_operator (cairo_t *cr, cairo_operator_t op) { _enter_trace (); _emit_line_info (); _emit_cairo_op (cr, "//%s set-operator\n", _operator_to_string (op)); DLCALL (cairo_set_operator, cr, op); _exit_trace (); } void cairo_set_source_rgb (cairo_t *cr, double red, double green, double blue) { _enter_trace (); _emit_line_info (); _emit_cairo_op (cr, "%g %g %g set-source-rgb\n", red, green, blue); DLCALL (cairo_set_source_rgb, cr, red, green, blue); _exit_trace (); } void cairo_set_source_rgba (cairo_t *cr, double red, double green, double blue, double alpha) { _enter_trace (); _emit_line_info (); _emit_cairo_op (cr, "%g %g %g %g set-source-rgba\n", red, green, blue, alpha); DLCALL (cairo_set_source_rgba, cr, red, green, blue, alpha); _exit_trace (); } static void _emit_source_image (cairo_surface_t *surface) { Object *obj; cairo_surface_t *image; cairo_t *cr; obj = _get_object (SURFACE, surface); if (obj == NULL) return; image = DLCALL (cairo_image_surface_create, CAIRO_FORMAT_ARGB32, obj->width, obj->height); cr = DLCALL (cairo_create, image); DLCALL (cairo_set_source_surface, cr, surface, 0, 0); DLCALL (cairo_paint, cr); DLCALL (cairo_destroy, cr); _emit_image (image, NULL); _trace_printf (" set-source-image "); DLCALL (cairo_surface_destroy, image); obj->foreign = FALSE; } static void _emit_source_image_rectangle (cairo_surface_t *surface, int x, int y, int width, int height) { Object *obj; cairo_surface_t *image; cairo_t *cr; obj = _get_object (SURFACE, surface); if (obj == NULL) return; if (obj->foreign) { _emit_source_image (surface); return; } image = DLCALL (cairo_image_surface_create, CAIRO_FORMAT_ARGB32, width, height); cr = DLCALL (cairo_create, image); DLCALL (cairo_set_source_surface, cr, surface, x, y); DLCALL (cairo_paint, cr); DLCALL (cairo_destroy, cr); _emit_image (image, NULL); _trace_printf (" %d %d set-device-offset set-source-image ", x, y); DLCALL (cairo_surface_destroy, image); } void cairo_set_source_surface (cairo_t *cr, cairo_surface_t *surface, double x, double y) { _enter_trace (); _emit_line_info (); if (cr != NULL && surface != NULL && _write_lock ()) { Object *obj = _get_object (SURFACE, surface); if (_is_current (SURFACE, surface, 0) && _is_current (CONTEXT, cr, 1)) { _consume_operand (); } else if (_is_current (SURFACE, surface, 1) && _is_current (CONTEXT, cr, 0)) { _trace_printf ("exch "); _exch_operands (); _consume_operand (); } else if (obj->defined) { _emit_context (cr); _trace_printf ("s%ld ", obj->token); } else { _emit_context (cr); _trace_printf ("%d index ", current_stack_depth - obj->operand - 1); } if (obj->foreign) _emit_source_image (surface); _trace_printf ("pattern"); if (x != 0. || y != 0.) _trace_printf (" %g %g translate", -x, -y); _trace_printf (" set-source\n"); _write_unlock (); } DLCALL (cairo_set_source_surface, cr, surface, x, y); _exit_trace (); } void cairo_set_source (cairo_t *cr, cairo_pattern_t *source) { _enter_trace (); _emit_line_info (); if (cr != NULL && source != NULL && _write_lock ()) { Object *obj = _get_object (PATTERN, source); cairo_bool_t need_context_and_pattern = TRUE; if (_is_current (PATTERN, source, 0) && _is_current (CONTEXT, cr, 1)) { if (obj->defined) { _consume_operand (); need_context_and_pattern = FALSE; } } else if (_is_current (PATTERN, source, 1) && _is_current (CONTEXT, cr, 0)) { if (obj->defined) { _trace_printf ("exch "); _exch_operands (); _consume_operand (); need_context_and_pattern = FALSE; } } if (need_context_and_pattern) { _emit_context (cr); _emit_pattern_id (source); } _trace_printf ("set-source\n"); _write_unlock (); } DLCALL (cairo_set_source, cr, source); _exit_trace (); } cairo_pattern_t * cairo_get_source (cairo_t *cr) { cairo_pattern_t *ret; _enter_trace (); ret = DLCALL (cairo_get_source, cr); if (! _has_pattern_id (ret)) { _emit_cairo_op (cr, "/source get /p%ld exch def\n", _create_pattern_id (ret)); _get_object (PATTERN, ret)->defined = TRUE; } _exit_trace (); return ret; } void cairo_set_tolerance (cairo_t *cr, double tolerance) { _enter_trace (); _emit_line_info (); _emit_cairo_op (cr, "%g set-tolerance\n", tolerance); DLCALL (cairo_set_tolerance, cr, tolerance); _exit_trace (); } static const char * _antialias_to_string (cairo_antialias_t antialias) { #define f(name) case CAIRO_ANTIALIAS_ ## name: return "ANTIALIAS_" #name switch (antialias) { f(DEFAULT); f(NONE); f(GRAY); f(SUBPIXEL); f(FAST); f(GOOD); f(BEST); }; #undef f return "UNKNOWN_ANTIALIAS"; } void cairo_set_antialias (cairo_t *cr, cairo_antialias_t antialias) { _enter_trace (); _emit_line_info (); _emit_cairo_op (cr, "//%s set-antialias\n", _antialias_to_string (antialias)); DLCALL (cairo_set_antialias, cr, antialias); _exit_trace (); } static const char * _fill_rule_to_string (cairo_fill_rule_t rule) { #define f(name) case CAIRO_FILL_RULE_ ## name: return #name switch (rule) { f(WINDING); f(EVEN_ODD); }; #undef f return "UNKNOWN_FILL_RULE"; } void cairo_set_fill_rule (cairo_t *cr, cairo_fill_rule_t fill_rule) { _enter_trace (); _emit_line_info (); _emit_cairo_op (cr, "//%s set-fill-rule\n", _fill_rule_to_string (fill_rule)); DLCALL (cairo_set_fill_rule, cr, fill_rule); _exit_trace (); } void cairo_set_line_width (cairo_t *cr, double width) { _enter_trace (); _emit_line_info (); _emit_cairo_op (cr, "%g set-line-width\n", width); DLCALL (cairo_set_line_width, cr, width); _exit_trace (); } static const char * _line_cap_to_string (cairo_line_cap_t line_cap) { #define f(name) case CAIRO_LINE_CAP_ ## name: return "LINE_CAP_" #name switch (line_cap) { f(BUTT); f(ROUND); f(SQUARE); }; #undef f return "UNKNOWN_LINE_CAP"; } void cairo_set_line_cap (cairo_t *cr, cairo_line_cap_t line_cap) { _enter_trace (); _emit_line_info (); _emit_cairo_op (cr, "//%s set-line-cap\n", _line_cap_to_string (line_cap)); DLCALL (cairo_set_line_cap, cr, line_cap); _exit_trace (); } static const char * _line_join_to_string (cairo_line_join_t line_join) { #define f(name) case CAIRO_LINE_JOIN_ ## name: return "LINE_JOIN_" #name switch (line_join) { f(MITER); f(ROUND); f(BEVEL); }; #undef f return "UNKNOWN_LINE_JOIN"; } void cairo_set_line_join (cairo_t *cr, cairo_line_join_t line_join) { _enter_trace (); _emit_line_info (); _emit_cairo_op (cr, "//%s set-line-join\n", _line_join_to_string (line_join)); DLCALL (cairo_set_line_join, cr, line_join); _exit_trace (); } void cairo_set_dash (cairo_t *cr, const double *dashes, int num_dashes, double offset) { _enter_trace (); _emit_line_info (); if (cr != NULL && _write_lock ()) { int n; _emit_context (cr); _trace_printf ("["); for (n = 0; n < num_dashes; n++) { if (n != 0) _trace_printf (" "); _trace_printf ("%g", dashes[n]); } _trace_printf ("] %g set-dash\n", offset); _write_unlock (); } DLCALL (cairo_set_dash, cr, dashes, num_dashes, offset); _exit_trace (); } void cairo_set_miter_limit (cairo_t *cr, double limit) { _enter_trace (); _emit_line_info (); _emit_cairo_op (cr, "%g set-miter-limit\n", limit); DLCALL (cairo_set_miter_limit, cr, limit); _exit_trace (); } void cairo_translate (cairo_t *cr, double tx, double ty) { _enter_trace (); _emit_line_info (); _emit_cairo_op (cr, "%g %g translate\n", tx, ty); DLCALL (cairo_translate, cr, tx, ty); _exit_trace (); } void cairo_scale (cairo_t *cr, double sx, double sy) { _enter_trace (); _emit_line_info (); _emit_cairo_op (cr, "%g %g scale\n", sx, sy); DLCALL (cairo_scale, cr, sx, sy); _exit_trace (); } void cairo_rotate (cairo_t *cr, double angle) { _enter_trace (); _emit_line_info (); _emit_cairo_op (cr, "%g rotate\n", angle); DLCALL (cairo_rotate, cr, angle); _exit_trace (); } void cairo_transform (cairo_t *cr, const cairo_matrix_t *matrix) { _enter_trace (); _emit_line_info (); _emit_cairo_op (cr, "%g %g %g %g %g %g matrix transform\n", matrix->xx, matrix->yx, matrix->xy, matrix->yy, matrix->x0, matrix->y0); DLCALL (cairo_transform, cr, matrix); _exit_trace (); } void cairo_set_matrix (cairo_t *cr, const cairo_matrix_t *matrix) { _enter_trace (); _emit_line_info (); if (_matrix_is_identity (matrix)) { _emit_cairo_op (cr, "identity set-matrix\n"); } else { _emit_cairo_op (cr, "%g %g %g %g %g %g matrix set-matrix\n", matrix->xx, matrix->yx, matrix->xy, matrix->yy, matrix->x0, matrix->y0); } DLCALL (cairo_set_matrix, cr, matrix); _exit_trace (); } cairo_surface_t * cairo_get_target (cairo_t *cr) { cairo_surface_t *ret; _enter_trace (); ret = DLCALL (cairo_get_target, cr); if (cr != NULL) { Object *obj = _create_surface (ret); if (! obj->defined) { _emit_cairo_op (cr, "/target get /s%ld exch def\n", obj->token); obj->defined = TRUE; } } _exit_trace (); return ret; } cairo_surface_t * cairo_get_group_target (cairo_t *cr) { cairo_surface_t *ret; _enter_trace (); ret = DLCALL (cairo_get_group_target, cr); if (cr != NULL) { Object *obj = _create_surface (ret); if (! obj->defined) { _emit_cairo_op (cr, "/group-target get /s%ld exch def\n", obj->token); obj->defined = TRUE; } } _exit_trace (); return ret; } void cairo_identity_matrix (cairo_t *cr) { _enter_trace (); _emit_line_info (); _emit_cairo_op (cr, "identity set-matrix\n"); DLCALL (cairo_identity_matrix, cr); _exit_trace (); } void cairo_new_path (cairo_t *cr) { _enter_trace (); _emit_line_info (); _emit_cairo_op (cr, "n "); DLCALL (cairo_new_path, cr); _exit_trace (); } void cairo_move_to (cairo_t *cr, double x, double y) { _enter_trace (); _emit_cairo_op (cr, "%g %g m ", x, y); DLCALL (cairo_move_to, cr, x, y); _exit_trace (); } void cairo_new_sub_path (cairo_t *cr) { _enter_trace (); _emit_cairo_op (cr, "N "); DLCALL (cairo_new_sub_path, cr); _exit_trace (); } void cairo_line_to (cairo_t *cr, double x, double y) { _enter_trace (); _emit_cairo_op (cr, "%g %g l ", x, y); DLCALL (cairo_line_to, cr, x, y); _exit_trace (); } void cairo_curve_to (cairo_t *cr, double x1, double y1, double x2, double y2, double x3, double y3) { _enter_trace (); _emit_cairo_op (cr, "%g %g %g %g %g %g c ", x1, y1, x2, y2, x3, y3); DLCALL (cairo_curve_to, cr, x1, y1, x2, y2, x3, y3); _exit_trace (); } void cairo_arc (cairo_t *cr, double xc, double yc, double radius, double angle1, double angle2) { _enter_trace (); _emit_cairo_op (cr, "%g %g %g %g %g arc\n", xc, yc, radius, angle1, angle2); DLCALL (cairo_arc, cr, xc, yc, radius, angle1, angle2); _exit_trace (); } void cairo_arc_negative (cairo_t *cr, double xc, double yc, double radius, double angle1, double angle2) { _enter_trace (); _emit_cairo_op (cr, "%g %g %g %g %g arc-\n", xc, yc, radius, angle1, angle2); DLCALL (cairo_arc_negative, cr, xc, yc, radius, angle1, angle2); _exit_trace (); } void cairo_rel_move_to (cairo_t *cr, double dx, double dy) { _enter_trace (); _emit_cairo_op (cr, "%g %g M ", dx, dy); DLCALL (cairo_rel_move_to, cr, dx, dy); _exit_trace (); } void cairo_rel_line_to (cairo_t *cr, double dx, double dy) { _enter_trace (); _emit_cairo_op (cr, "%g %g L ", dx, dy); DLCALL (cairo_rel_line_to, cr, dx, dy); _exit_trace (); } void cairo_rel_curve_to (cairo_t *cr, double dx1, double dy1, double dx2, double dy2, double dx3, double dy3) { _enter_trace (); _emit_cairo_op (cr, "%g %g %g %g %g %g C ", dx1, dy1, dx2, dy2, dx3, dy3); DLCALL (cairo_rel_curve_to, cr, dx1, dy1, dx2, dy2, dx3, dy3); _exit_trace (); } void cairo_rectangle (cairo_t *cr, double x, double y, double width, double height) { _enter_trace (); _emit_cairo_op (cr, "%g %g %g %g rectangle\n", x, y, width, height); DLCALL (cairo_rectangle, cr, x, y, width, height); _exit_trace (); } void cairo_close_path (cairo_t *cr) { _enter_trace (); _emit_cairo_op (cr, "h\n"); DLCALL (cairo_close_path, cr); _exit_trace (); } void cairo_paint (cairo_t *cr) { _enter_trace (); _emit_line_info (); _emit_cairo_op (cr, "paint\n"); DLCALL (cairo_paint, cr); _exit_trace (); } void cairo_paint_with_alpha (cairo_t *cr, double alpha) { _enter_trace (); _emit_line_info (); _emit_cairo_op (cr, "%g paint-with-alpha\n", alpha); DLCALL (cairo_paint_with_alpha, cr, alpha); _exit_trace (); } void cairo_mask (cairo_t *cr, cairo_pattern_t *pattern) { _enter_trace (); _emit_line_info (); if (cr != NULL && pattern != NULL && _write_lock ()) { Object *obj = _get_object (PATTERN, pattern); cairo_bool_t need_context_and_pattern = TRUE; if (_is_current (PATTERN, pattern, 0) && _is_current (CONTEXT, cr, 1)) { if (obj->defined) { _consume_operand (); need_context_and_pattern = FALSE; } } else if (_is_current (PATTERN, pattern, 1) && _is_current (CONTEXT, cr, 0)) { if (obj->defined) { _trace_printf ("exch "); _exch_operands (); _consume_operand (); need_context_and_pattern = FALSE; } } if (need_context_and_pattern) { _emit_context (cr); _emit_pattern_id (pattern); } _trace_printf (" mask\n"); _write_unlock (); } DLCALL (cairo_mask, cr, pattern); _exit_trace (); } void cairo_mask_surface (cairo_t *cr, cairo_surface_t *surface, double x, double y) { _enter_trace (); _emit_line_info (); if (cr != NULL && surface != NULL && _write_lock ()) { Object *obj = _get_object (SURFACE, surface); if (_is_current (SURFACE, surface, 0) && _is_current (CONTEXT, cr, 1)) { _consume_operand (); } else if (_is_current (SURFACE, surface, 1) && _is_current (CONTEXT, cr, 0)) { _trace_printf ("exch "); _exch_operands (); _consume_operand (); } else if (obj->defined){ _emit_context (cr); _trace_printf ("s%ld ", obj->token); } else { _emit_context (cr); _trace_printf ("%d index ", current_stack_depth - obj->operand - 1); } _trace_printf ("pattern"); if (x != 0. || y != 0.) _trace_printf (" %g %g translate", -x, -y); _trace_printf (" mask\n"); _write_unlock (); } DLCALL (cairo_mask_surface, cr, surface, x, y); _exit_trace (); } void cairo_stroke (cairo_t *cr) { _enter_trace (); _emit_line_info (); _emit_cairo_op (cr, "stroke\n"); DLCALL (cairo_stroke, cr); _exit_trace (); } void cairo_stroke_preserve (cairo_t *cr) { _enter_trace (); _emit_line_info (); _emit_cairo_op (cr, "stroke+\n"); DLCALL (cairo_stroke_preserve, cr); _exit_trace (); } void cairo_fill (cairo_t *cr) { _enter_trace (); _emit_line_info (); _emit_cairo_op (cr, "fill\n"); DLCALL (cairo_fill, cr); _exit_trace (); } void cairo_fill_preserve (cairo_t *cr) { _enter_trace (); _emit_line_info (); _emit_cairo_op (cr, "fill+\n"); DLCALL (cairo_fill_preserve, cr); _exit_trace (); } void cairo_copy_page (cairo_t *cr) { _enter_trace (); _emit_line_info (); _emit_cairo_op (cr, "copy-page\n"); DLCALL (cairo_copy_page, cr); _exit_trace (); } void cairo_show_page (cairo_t *cr) { _enter_trace (); _emit_line_info (); _emit_cairo_op (cr, "show-page\n"); DLCALL (cairo_show_page, cr); _exit_trace (); } void cairo_clip (cairo_t *cr) { _enter_trace (); _emit_line_info (); _emit_cairo_op (cr, "clip\n"); DLCALL (cairo_clip, cr); _exit_trace (); } void cairo_clip_preserve (cairo_t *cr) { _enter_trace (); _emit_line_info (); _emit_cairo_op (cr, "clip+\n"); DLCALL (cairo_clip_preserve, cr); _exit_trace (); } void cairo_reset_clip (cairo_t *cr) { _enter_trace (); _emit_line_info (); _emit_cairo_op (cr, "reset-clip\n"); DLCALL (cairo_reset_clip, cr); _exit_trace (); } static const char * _slant_to_string (cairo_font_slant_t font_slant) { #define f(name) case CAIRO_FONT_SLANT_ ## name: return "SLANT_" #name switch (font_slant) { f(NORMAL); f(ITALIC); f(OBLIQUE); }; #undef f return "UNKNOWN_SLANT"; } static const char * _weight_to_string (cairo_font_weight_t font_weight) { #define f(name) case CAIRO_FONT_WEIGHT_ ## name: return "WEIGHT_" #name switch (font_weight) { f(NORMAL); f(BOLD); }; #undef f return "UNKNOWN_WEIGHT"; } void cairo_select_font_face (cairo_t *cr, const char *family, cairo_font_slant_t slant, cairo_font_weight_t weight) { _enter_trace (); _emit_line_info (); if (cr != NULL && _write_lock ()) { _emit_context (cr); _emit_string_literal (family, -1); _trace_printf (" //%s //%s select-font-face\n", _slant_to_string (slant), _weight_to_string (weight)); _write_unlock (); } DLCALL (cairo_select_font_face, cr, family, slant, weight); _exit_trace (); } cairo_font_face_t * cairo_get_font_face (cairo_t *cr) { cairo_font_face_t *ret; long font_face_id; _enter_trace (); ret = DLCALL (cairo_get_font_face, cr); font_face_id = _create_font_face_id (ret); _emit_cairo_op (cr, "/font-face get %% f%ld\n", font_face_id); _push_operand (FONT_FACE, ret); _exit_trace (); return ret; } void cairo_set_font_face (cairo_t *cr, cairo_font_face_t *font_face) { _enter_trace (); _emit_line_info (); if (cr != NULL && font_face != NULL && _write_lock ()) { if (_is_current (FONT_FACE, font_face, 0) && _is_current (CONTEXT, cr, 1)) { _consume_operand (); } else if (_is_current (FONT_FACE, font_face, 1) && _is_current (CONTEXT, cr, 0)) { _trace_printf ("exch "); _exch_operands (); _consume_operand (); } else { _emit_context (cr); _emit_font_face_id (font_face); } _trace_printf ("set-font-face\n"); _write_unlock (); } DLCALL (cairo_set_font_face, cr, font_face); _exit_trace (); } void cairo_set_font_size (cairo_t *cr, double size) { _enter_trace (); _emit_line_info (); _emit_cairo_op (cr, "%g set-font-size\n", size); DLCALL (cairo_set_font_size, cr, size); _exit_trace (); } void cairo_set_font_matrix (cairo_t *cr, const cairo_matrix_t *matrix) { _enter_trace (); _emit_line_info (); _emit_cairo_op (cr, "%g %g %g %g %g %g matrix set-font-matrix\n", matrix->xx, matrix->yx, matrix->xy, matrix->yy, matrix->x0, matrix->y0); DLCALL (cairo_set_font_matrix, cr, matrix); _exit_trace (); } static const char * _subpixel_order_to_string (cairo_subpixel_order_t subpixel_order) { #define f(name) case CAIRO_SUBPIXEL_ORDER_ ## name: return "SUBPIXEL_ORDER_" #name switch (subpixel_order) { f(DEFAULT); f(RGB); f(BGR); f(VRGB); f(VBGR); }; #undef f return "UNKNOWN_SUBPIXEL_ORDER"; } static const char * _hint_style_to_string (cairo_hint_style_t hint_style) { #define f(name) case CAIRO_HINT_STYLE_ ## name: return "HINT_STYLE_" #name switch (hint_style) { f(DEFAULT); f(NONE); f(SLIGHT); f(MEDIUM); f(FULL); }; #undef f return "UNKNOWN_HINT_STYLE"; } static const char * _hint_metrics_to_string (cairo_hint_metrics_t hint_metrics) { #define f(name) case CAIRO_HINT_METRICS_ ## name: return "HINT_METRICS_" #name switch (hint_metrics) { f(DEFAULT); f(OFF); f(ON); }; #undef f return "UNKNOWN_HINT_METRICS"; } static void _emit_font_options (const cairo_font_options_t *options) { cairo_antialias_t antialias; cairo_subpixel_order_t subpixel_order; cairo_hint_style_t hint_style; cairo_hint_metrics_t hint_metrics; _trace_printf ("<<"); antialias = DLCALL (cairo_font_options_get_antialias, options); if (antialias != CAIRO_ANTIALIAS_DEFAULT) { _trace_printf (" /antialias //%s", _antialias_to_string (antialias)); } subpixel_order = DLCALL (cairo_font_options_get_subpixel_order, options); if (subpixel_order != CAIRO_SUBPIXEL_ORDER_DEFAULT) { _trace_printf (" /subpixel-order //%s", _subpixel_order_to_string (subpixel_order)); } hint_style = DLCALL (cairo_font_options_get_hint_style, options); if (hint_style != CAIRO_HINT_STYLE_DEFAULT) { _trace_printf (" /hint-style //%s", _hint_style_to_string (hint_style)); } hint_metrics = DLCALL (cairo_font_options_get_hint_metrics, options); if (hint_metrics != CAIRO_HINT_METRICS_DEFAULT) { _trace_printf (" /hint-metrics //%s", _hint_metrics_to_string (hint_metrics)); } _trace_printf (" >>"); } void cairo_set_font_options (cairo_t *cr, const cairo_font_options_t *options) { _enter_trace (); _emit_line_info (); if (cr != NULL && options != NULL && _write_lock ()) { _emit_context (cr); _emit_font_options (options); _trace_printf (" set-font-options\n"); _write_unlock (); } DLCALL (cairo_set_font_options, cr, options); _exit_trace (); } cairo_scaled_font_t * cairo_get_scaled_font (cairo_t *cr) { cairo_scaled_font_t *ret; _enter_trace (); ret = DLCALL (cairo_get_scaled_font, cr); if (cr != NULL && ! _has_scaled_font_id (ret)) { _emit_cairo_op (cr, "/scaled-font get /sf%ld exch def\n", _create_scaled_font_id (ret)); _get_object (SCALED_FONT, ret)->defined = TRUE; } _exit_trace (); return ret; } void cairo_set_scaled_font (cairo_t *cr, const cairo_scaled_font_t *scaled_font) { _enter_trace (); _emit_line_info (); if (cr != NULL && scaled_font != NULL) { if (_pop_operands_to (SCALED_FONT, scaled_font)) { if (_is_current (CONTEXT, cr, 1)) { if (_write_lock ()) { _consume_operand (); _trace_printf ("set-scaled-font\n"); _write_unlock (); } } else { if (_get_object (CONTEXT, cr)->defined) { if (_write_lock ()) { _consume_operand (); _trace_printf ("c%ld exch set-scaled-font pop\n", _get_context_id (cr)); _write_unlock (); } } else { _emit_cairo_op (cr, "sf%ld set-scaled-font\n", _get_scaled_font_id (scaled_font)); } } } else { _emit_cairo_op (cr, "sf%ld set-scaled-font\n", _get_scaled_font_id (scaled_font)); } } DLCALL (cairo_set_scaled_font, cr, scaled_font); _exit_trace (); } static void _emit_matrix (const cairo_matrix_t *m) { if (_matrix_is_identity(m)) { _trace_printf ("identity"); } else { _trace_printf ("%g %g %g %g %g %g matrix", m->xx, m->yx, m->xy, m->yy, m->x0, m->y0); } } cairo_scaled_font_t * cairo_scaled_font_create (cairo_font_face_t *font_face, const cairo_matrix_t *font_matrix, const cairo_matrix_t *ctm, const cairo_font_options_t *options) { cairo_scaled_font_t *ret; long scaled_font_id; _enter_trace (); ret = DLCALL (cairo_scaled_font_create, font_face, font_matrix, ctm, options); scaled_font_id = _create_scaled_font_id (ret); _emit_line_info (); if (font_face != NULL && font_matrix != NULL && ctm != NULL && options != NULL && _write_lock ()) { if (_pop_operands_to (FONT_FACE, font_face)) _consume_operand (); else _trace_printf ("f%ld ", _get_font_face_id (font_face)); _emit_matrix (font_matrix); _trace_printf (" "); _emit_matrix (ctm); _trace_printf (" "); _emit_font_options (options); if (_get_object (SCALED_FONT, ret)->defined) { _trace_printf (" scaled-font pop %% sf%ld\n", scaled_font_id); } else { _trace_printf (" scaled-font dup /sf%ld exch def\n", scaled_font_id); _push_operand (SCALED_FONT, ret); _get_object (SCALED_FONT, ret)->defined = TRUE; } _write_unlock (); } _exit_trace (); return ret; } void cairo_show_text (cairo_t *cr, const char *utf8) { _enter_trace (); _emit_line_info (); if (cr != NULL && _write_lock ()) { _emit_context (cr); _emit_string_literal (utf8, -1); _trace_printf (" show-text\n"); _write_unlock (); } DLCALL (cairo_show_text, cr, utf8); _exit_trace (); } static void _glyph_advance (cairo_scaled_font_t *font, const cairo_glyph_t *glyph, double *x, double *y) { cairo_text_extents_t extents; DLCALL (cairo_scaled_font_glyph_extents, font, glyph, 1, &extents); *x += extents.x_advance; *y += extents.y_advance; } #define TOLERANCE 1e-5 static void _emit_glyphs (cairo_scaled_font_t *font, const cairo_glyph_t *glyphs, int num_glyphs) { double x,y; int n; if (num_glyphs == 0) { _trace_printf ("[]"); return; } for (n = 0; n < num_glyphs; n++) { if (glyphs[n].index > 255) break; } x = glyphs->x; y = glyphs->y; if (n < num_glyphs) { /* need full glyph range */ cairo_bool_t first; _trace_printf ("[%g %g [", x, y); first = TRUE; while (num_glyphs--) { if (fabs (glyphs->x - x) > TOLERANCE || fabs (glyphs->y - y) > TOLERANCE) { x = glyphs->x; y = glyphs->y; _trace_printf ("] %g %g [", x, y); first = TRUE; } if (! first) _trace_printf (" "); _trace_printf ("%lu", glyphs->index); first = FALSE; _glyph_advance (font, glyphs, &x, &y); glyphs++; } _trace_printf ("]]"); } else { struct _data_stream stream; if (num_glyphs == 1) { _trace_printf ("[%g %g <%02lx>]", x, y, glyphs->index); } else { _trace_printf ("[%g %g <~", x, y); _write_base85_data_start (&stream); while (num_glyphs--) { unsigned char c; if (fabs (glyphs->x - x) > TOLERANCE || fabs (glyphs->y - y) > TOLERANCE) { x = glyphs->x; y = glyphs->y; _write_base85_data_end (&stream); _trace_printf ("~> %g %g <~", x, y); _write_base85_data_start (&stream); } c = glyphs->index; _write_base85_data (&stream, &c, 1); _glyph_advance (font, glyphs, &x, &y); glyphs++; } _write_base85_data_end (&stream); _trace_printf ("~>]"); } } } void cairo_show_glyphs (cairo_t *cr, const cairo_glyph_t *glyphs, int num_glyphs) { _enter_trace (); _emit_line_info (); if (cr != NULL && glyphs != NULL && _write_lock ()) { cairo_scaled_font_t *font; _emit_context (cr); font = DLCALL (cairo_get_scaled_font, cr); _emit_glyphs (font, glyphs, num_glyphs); _trace_printf (" show-glyphs\n"); _write_unlock (); } DLCALL (cairo_show_glyphs, cr, glyphs, num_glyphs); _exit_trace (); } static const char * _direction_to_string (cairo_bool_t backward) { const char *names[] = { "FORWARD", "BACKWARD" }; return names[!!backward]; } void cairo_show_text_glyphs (cairo_t *cr, const char *utf8, int utf8_len, const cairo_glyph_t *glyphs, int num_glyphs, const cairo_text_cluster_t *clusters, int num_clusters, cairo_text_cluster_flags_t backward) { cairo_scaled_font_t *font; _enter_trace (); font = DLCALL (cairo_get_scaled_font, cr); _emit_line_info (); if (cr != NULL && glyphs != NULL && clusters != NULL && _write_lock ()) { int n; _emit_context (cr); _emit_string_literal (utf8, utf8_len); _emit_glyphs (font, glyphs, num_glyphs); _trace_printf (" ["); for (n = 0; n < num_clusters; n++) { _trace_printf (" %d %d", clusters[n].num_bytes, clusters[n].num_glyphs); } _trace_printf (" ] //%s show-text-glyphs\n", _direction_to_string (backward)); _write_unlock (); } DLCALL (cairo_show_text_glyphs, cr, utf8, utf8_len, glyphs, num_glyphs, clusters, num_clusters, backward); _exit_trace (); } void cairo_text_path (cairo_t *cr, const char *utf8) { _enter_trace (); _emit_line_info (); if (cr != NULL && _write_lock ()) { _emit_context (cr); _emit_string_literal (utf8, -1); _trace_printf (" text-path\n"); _write_unlock (); } DLCALL (cairo_text_path, cr, utf8); _exit_trace (); } void cairo_glyph_path (cairo_t *cr, const cairo_glyph_t *glyphs, int num_glyphs) { cairo_scaled_font_t *font; _enter_trace (); font = DLCALL (cairo_get_scaled_font, cr); _emit_line_info (); if (cr != NULL && glyphs != NULL && _write_lock ()) { _emit_context (cr); _emit_glyphs (font, glyphs, num_glyphs); _trace_printf (" glyph-path\n"); _write_unlock (); } DLCALL (cairo_glyph_path, cr, glyphs, num_glyphs); _exit_trace (); } void cairo_append_path (cairo_t *cr, const cairo_path_t *path) { /* XXX no support for named paths, so manually reconstruct */ int i; cairo_path_data_t *p; _enter_trace (); _emit_line_info (); if (cr == NULL || path == NULL) { DLCALL (cairo_append_path, cr, path); _exit_trace (); return; } for (i=0; i < path->num_data; i += path->data[i].header.length) { p = &path->data[i]; switch (p->header.type) { case CAIRO_PATH_MOVE_TO: if (p->header.length >= 2) cairo_move_to (cr, p[1].point.x, p[1].point.y); break; case CAIRO_PATH_LINE_TO: if (p->header.length >= 2) cairo_line_to (cr, p[1].point.x, p[1].point.y); break; case CAIRO_PATH_CURVE_TO: if (p->header.length >= 4) cairo_curve_to (cr, p[1].point.x, p[1].point.y, p[2].point.x, p[2].point.y, p[3].point.x, p[3].point.y); break; case CAIRO_PATH_CLOSE_PATH: if (p->header.length >= 1) cairo_close_path (cr); break; default: break; } } _exit_trace (); } cairo_surface_t * cairo_image_surface_create (cairo_format_t format, int width, int height) { cairo_surface_t *ret; _enter_trace (); ret = DLCALL (cairo_image_surface_create, format, width, height); _emit_line_info (); if (_write_lock ()) { Object *obj = _create_surface (ret); const char *format_str = _format_to_string (format); const char *content_str = _format_to_content_string (format); _trace_printf ("dict\n" " /width %d set\n" " /height %d set\n" " /format //%s set\n" " /content //%s set\n" " image dup /s%ld exch def\n", width, height, format_str, content_str, obj->token); obj->width = width; obj->height = height; obj->defined = TRUE; _push_object (obj); _write_unlock (); } _exit_trace (); return ret; } cairo_surface_t * cairo_image_surface_create_for_data (unsigned char *data, cairo_format_t format, int width, int height, int stride) { cairo_surface_t *ret; _enter_trace (); ret = DLCALL (cairo_image_surface_create_for_data, data, format, width, height, stride); _emit_line_info (); if (_write_lock ()) { Object *obj = _create_surface (ret); /* cairo_image_surface_create_for_data() is both used to supply * foreign pixel data to cairo and in order to read pixels back. * Defer grabbing the pixel contents until we have to, but only for * "large" images, for small images the overhead of embedding pixels * is negligible. * * Choose 32x32 as that captures most icons which thanks to GdkPixbuf * are frequently reloaded. */ if (width * height < 32*32) { _emit_image (ret, NULL); _trace_printf (" dup /s%ld exch def\n", obj->token); } else { _trace_printf ("dict\n" " /width %d set\n" " /height %d set\n" " /format //%s set\n" " image dup /s%ld exch def\n", width, height, _format_to_string (format), obj->token); obj->foreign = TRUE; } obj->width = width; obj->height = height; obj->defined = TRUE; _push_object (obj); _write_unlock (); } _exit_trace (); return ret; } cairo_pattern_t * cairo_pattern_create_raster_source (void *data, cairo_content_t content, int width, int height) { cairo_pattern_t *ret; _enter_trace (); ret = DLCALL (cairo_pattern_create_raster_source, data, content, width, height); _emit_line_info (); if (_write_lock ()) { long pattern_id = _create_pattern_id (ret); cairo_format_t format; cairo_surface_t *image; cairo_t *cr; /* Impossible to accurately record the interaction with this custom * pattern so just suck all the data into an image upfront */ switch (content) { case CAIRO_CONTENT_ALPHA: format = CAIRO_FORMAT_A8; break; case CAIRO_CONTENT_COLOR: format = CAIRO_FORMAT_RGB24; break; default: case CAIRO_CONTENT_COLOR_ALPHA: format = CAIRO_FORMAT_ARGB32; break; } _trace_printf ("%% raster-source\n"); image = DLCALL (cairo_image_surface_create, format, width, height); cr = DLCALL (cairo_create, image); DLCALL (cairo_set_source, cr, ret); DLCALL (cairo_paint, cr); DLCALL (cairo_destroy, cr); _emit_image (image, NULL); DLCALL (cairo_surface_destroy, image); _trace_printf (" pattern dup /s%ld exch def\n", pattern_id); _push_operand (PATTERN, ret); _write_unlock (); } _exit_trace (); return ret; } cairo_surface_t * cairo_surface_create_similar (cairo_surface_t *other, cairo_content_t content, int width, int height) { cairo_surface_t *ret; _enter_trace (); ret = DLCALL (cairo_surface_create_similar, other, content, width, height); _emit_line_info (); if (other != NULL && _write_lock ()) { Object *other_obj = _get_object(SURFACE, other); Object *new_obj = _create_surface (ret); if (other_obj->defined) _trace_printf ("s%ld ", other_obj->token); else if (current_stack_depth == other_obj->operand + 1) _trace_printf ("dup "); else _trace_printf ("%d index ", current_stack_depth - other_obj->operand - 1); _trace_printf ("%d %d //%s similar %% s%ld\n", width, height, _content_to_string (content), new_obj->token); _push_object (new_obj); _write_unlock (); } _exit_trace (); return ret; } cairo_surface_t * cairo_surface_create_similar_image (cairo_surface_t *other, cairo_format_t format, int width, int height) { cairo_surface_t *ret; _enter_trace (); ret = DLCALL (cairo_surface_create_similar_image, other, format, width, height); _emit_line_info (); if (other != NULL && _write_lock ()) { Object *other_obj = _get_object(SURFACE, other); Object *new_obj = _create_surface (ret); if (other_obj->defined) _trace_printf ("s%ld ", other_obj->token); else if (current_stack_depth == other_obj->operand + 1) _trace_printf ("dup "); else _trace_printf ("%d index ", current_stack_depth - other_obj->operand - 1); _trace_printf ("s%ld //%s %d %d similar-image %% s%ld\n", _get_surface_id (other), _format_to_string (format), width, height, new_obj->token); _push_object (new_obj); _write_unlock (); } _exit_trace (); return ret; } cairo_surface_t * cairo_surface_map_to_image (cairo_surface_t *surface, const cairo_rectangle_int_t *extents) { cairo_surface_t *ret; _enter_trace (); ret = DLCALL (cairo_surface_map_to_image, surface, extents); _emit_line_info (); if (_write_lock ()) { Object *obj = _create_surface (ret); if (extents) { _trace_printf ("[%d %d %d %d] map-to-image\n", extents->x, extents->y, extents->width, extents->height); obj->width = extents->width; obj->height = extents->height; } else { _trace_printf ("[ ] map-to-image\n"); } _push_object (obj); _write_unlock (); } _exit_trace (); return ret; } void cairo_surface_unmap_image (cairo_surface_t *surface, cairo_surface_t *image) { _enter_trace (); _emit_line_info (); if (_write_lock ()) { _trace_printf ("/s%ld /s%ld unmap-image\n", _get_surface_id (surface), _get_surface_id (image)); _consume_operand (); _write_unlock (); } DLCALL (cairo_surface_unmap_image, surface, image); _exit_trace (); } cairo_surface_t * cairo_surface_create_for_rectangle (cairo_surface_t *target, double x, double y, double width, double height) { cairo_surface_t *ret; _enter_trace (); ret = DLCALL (cairo_surface_create_for_rectangle, target, x, y, width, height); _emit_line_info (); if (target != NULL && _write_lock ()) { Object *target_obj = _get_object (SURFACE, target); Object *child_obj = _create_surface (ret); if (target_obj->defined) _trace_printf ("s%ld ", target_obj->token); else if (current_stack_depth == target_obj->operand + 1) _trace_printf ("dup "); else _trace_printf ("%d index ", current_stack_depth - target_obj->operand - 1); _trace_printf ("%f %f %f %f subsurface %% s%ld\n", x, y, width, height, child_obj->token); _push_object (child_obj); _write_unlock (); } _exit_trace (); return ret; } static void CAIRO_PRINTF_FORMAT(2, 3) _emit_surface_op (cairo_surface_t *surface, const char *fmt, ...) { va_list ap; if (surface == NULL || ! _write_lock ()) return; _emit_surface (surface); va_start (ap, fmt); _trace_vprintf ( fmt, ap); va_end (ap); _write_unlock (); } void cairo_surface_finish (cairo_surface_t *surface) { _enter_trace (); _emit_line_info (); DLCALL (cairo_surface_finish, surface); _exit_trace (); } void cairo_surface_flush (cairo_surface_t *surface) { _enter_trace (); _emit_line_info (); DLCALL (cairo_surface_flush, surface); _exit_trace (); } void cairo_surface_mark_dirty (cairo_surface_t *surface) { _enter_trace (); _emit_line_info (); /* Call cairo before emitting the trace since _emit_surface() might cause * snapshots to be creates while mark_dirty assert()s that there are none. */ DLCALL (cairo_surface_mark_dirty, surface); if (surface != NULL && _write_lock ()) { if (_mark_dirty) { _emit_surface (surface); _trace_printf ("%% mark-dirty\n"); _emit_source_image (surface); } else _trace_printf ("%% s%ld mark-dirty\n", _get_surface_id (surface)); _write_unlock (); } _exit_trace (); } void cairo_surface_mark_dirty_rectangle (cairo_surface_t *surface, int x, int y, int width, int height) { _enter_trace (); /* Call cairo before emitting the trace since _emit_surface() might cause * snapshots to be creates while mark_dirty assert()s that there are none. */ DLCALL (cairo_surface_mark_dirty_rectangle, surface, x, y, width, height); _emit_line_info (); if (surface != NULL && _write_lock ()) { if (_mark_dirty) { _emit_surface (surface); _trace_printf ("%% %d %d %d %d mark-dirty-rectangle\n", x, y, width, height); _emit_source_image_rectangle (surface, x,y, width, height); } else _trace_printf ("%% s%ld %d %d %d %d mark-dirty-rectangle\n", _get_surface_id (surface), x, y, width, height); _write_unlock (); } _exit_trace (); } void cairo_surface_set_device_offset (cairo_surface_t *surface, double x_offset, double y_offset) { _enter_trace (); _emit_line_info (); _emit_surface_op (surface, "%g %g set-device-offset\n", x_offset, y_offset); DLCALL (cairo_surface_set_device_offset, surface, x_offset, y_offset); _exit_trace (); } void cairo_surface_set_fallback_resolution (cairo_surface_t *surface, double x_pixels_per_inch, double y_pixels_per_inch) { _enter_trace (); _emit_line_info (); _emit_surface_op (surface, "%g %g set-fallback-resolution\n", x_pixels_per_inch, y_pixels_per_inch); DLCALL (cairo_surface_set_fallback_resolution, surface, x_pixels_per_inch, y_pixels_per_inch); _exit_trace (); } void cairo_surface_copy_page (cairo_surface_t *surface) { _enter_trace (); _emit_line_info (); _emit_surface_op (surface, "copy-page\n"); DLCALL (cairo_surface_copy_page, surface); _exit_trace (); } void cairo_surface_show_page (cairo_surface_t *surface) { _enter_trace (); _emit_line_info (); _emit_surface_op (surface, "show-page\n"); DLCALL (cairo_surface_show_page, surface); _exit_trace (); } cairo_status_t cairo_surface_set_mime_data (cairo_surface_t *surface, const char *mime_type, const unsigned char *data, unsigned long length, cairo_destroy_func_t destroy, void *closure) { cairo_status_t ret; _enter_trace (); _emit_line_info (); if (surface != NULL && _write_lock ()) { _emit_surface (surface); _emit_string_literal (mime_type, -1); _trace_printf (" "); _emit_data (data, length); _trace_printf (" /deflate filter set-mime-data\n"); _write_unlock (); } ret = DLCALL (cairo_surface_set_mime_data, surface, mime_type, data, length, destroy, closure); _exit_trace (); return ret; } #if CAIRO_HAS_PNG_FUNCTIONS cairo_status_t cairo_surface_write_to_png (cairo_surface_t *surface, const char *filename) { cairo_status_t ret; _enter_trace (); _emit_line_info (); if (surface != NULL && _write_lock ()) { _trace_printf ("%% s%ld ", _get_surface_id (surface)); _emit_string_literal (filename, -1); _trace_printf (" write-to-png pop\n"); _write_unlock (); } ret = DLCALL (cairo_surface_write_to_png, surface, filename); _exit_trace (); return ret; } cairo_status_t cairo_surface_write_to_png_stream (cairo_surface_t *surface, cairo_write_func_t write_func, void *data) { cairo_status_t ret; _enter_trace (); _emit_line_info (); if (surface != NULL && _write_lock ()) { char symbol[1024]; _trace_printf ("%% s%ld ", _get_surface_id (surface)); #if CAIRO_HAS_SYMBOL_LOOKUP lookup_symbol (symbol, sizeof (symbol), write_func); #else symbol[0] = '\0'; #endif _emit_string_literal (symbol, -1); _trace_printf (" write-to-png-stream pop\n"); _write_unlock (); } ret = DLCALL (cairo_surface_write_to_png_stream, surface, write_func, data); _exit_trace (); return ret; } #endif static void CAIRO_PRINTF_FORMAT(2, 3) _emit_pattern_op (cairo_pattern_t *pattern, const char *fmt, ...) { va_list ap; if (pattern == NULL || ! _write_lock ()) return; _emit_pattern (pattern); va_start (ap, fmt); _trace_vprintf (fmt, ap); va_end (ap); _write_unlock (); } cairo_pattern_t * cairo_pattern_create_rgb (double red, double green, double blue) { cairo_pattern_t *ret; long pattern_id; _enter_trace (); ret = DLCALL (cairo_pattern_create_rgb, red, green, blue); pattern_id = _create_pattern_id (ret); _emit_line_info (); if (_write_lock ()) { _trace_printf ("/p%ld %g %g %g rgb def\n", pattern_id, red, green, blue); _get_object (PATTERN, ret)->defined = TRUE; _write_unlock (); } _exit_trace (); return ret; } cairo_pattern_t * cairo_pattern_create_rgba (double red, double green, double blue, double alpha) { cairo_pattern_t *ret; long pattern_id; _enter_trace (); ret = DLCALL (cairo_pattern_create_rgba, red, green, blue, alpha); pattern_id = _create_pattern_id (ret); _emit_line_info (); if (_write_lock ()) { _trace_printf ("/p%ld %g %g %g %g rgba def\n", pattern_id, red, green, blue, alpha); _get_object (PATTERN, ret)->defined = TRUE; _write_unlock (); } _exit_trace (); return ret; } cairo_pattern_t * cairo_pattern_create_for_surface (cairo_surface_t *surface) { cairo_pattern_t *ret; long pattern_id; long surface_id; _enter_trace (); ret = DLCALL (cairo_pattern_create_for_surface, surface); pattern_id = _create_pattern_id (ret); _emit_line_info (); if (surface != NULL && _write_lock ()) { surface_id = _get_surface_id (surface); if (_pop_operands_to (SURFACE, surface)) { _consume_operand (); } else { _trace_printf ("s%ld ", surface_id); } if (_get_object (SURFACE, surface)->foreign) _emit_source_image (surface); _trace_printf ("pattern %% p%ld\n", pattern_id); _push_operand (PATTERN, ret); _write_unlock (); } _exit_trace (); return ret; } cairo_pattern_t * cairo_pattern_create_linear (double x0, double y0, double x1, double y1) { cairo_pattern_t *ret; long pattern_id; _enter_trace (); ret = DLCALL (cairo_pattern_create_linear, x0, y0, x1, y1); pattern_id = _create_pattern_id (ret); _emit_line_info (); if (_write_lock ()) { _trace_printf ("%g %g %g %g linear %% p%ld\n", x0, y0, x1, y1, pattern_id); _push_operand (PATTERN, ret); _write_unlock (); } _exit_trace (); return ret; } cairo_pattern_t * cairo_pattern_create_radial (double cx0, double cy0, double radius0, double cx1, double cy1, double radius1) { cairo_pattern_t *ret; long pattern_id; _enter_trace (); ret = DLCALL (cairo_pattern_create_radial, cx0, cy0, radius0, cx1, cy1, radius1); pattern_id = _create_pattern_id (ret); _emit_line_info (); if (_write_lock ()) { _trace_printf ("%g %g %g %g %g %g radial %% p%ld\n", cx0, cy0, radius0, cx1, cy1, radius1, pattern_id); _push_operand (PATTERN, ret); _write_unlock (); } _exit_trace (); return ret; } void cairo_pattern_add_color_stop_rgb (cairo_pattern_t *pattern, double offset, double red, double green, double blue) { _enter_trace (); _emit_line_info (); _emit_pattern_op (pattern, "%g %g %g %g 1 add-color-stop\n", offset, red, green, blue); DLCALL (cairo_pattern_add_color_stop_rgb, pattern, offset, red, green, blue); _exit_trace (); } void cairo_pattern_add_color_stop_rgba (cairo_pattern_t *pattern, double offset, double red, double green, double blue, double alpha) { _enter_trace (); _emit_line_info (); _emit_pattern_op (pattern, "%g %g %g %g %g add-color-stop\n", offset, red, green, blue, alpha); DLCALL (cairo_pattern_add_color_stop_rgba, pattern, offset, red, green, blue, alpha); _exit_trace (); } void cairo_pattern_set_matrix (cairo_pattern_t *pattern, const cairo_matrix_t *matrix) { _enter_trace (); _emit_line_info (); if (_matrix_is_identity (matrix)) { _emit_pattern_op (pattern, "identity set-matrix\n"); } else { _emit_pattern_op (pattern, "%g %g %g %g %g %g matrix set-matrix\n", matrix->xx, matrix->yx, matrix->xy, matrix->yy, matrix->x0, matrix->y0); } DLCALL (cairo_pattern_set_matrix, pattern, matrix); _exit_trace (); } static const char * _filter_to_string (cairo_filter_t filter) { #define f(name) case CAIRO_FILTER_ ## name: return "FILTER_" #name switch (filter) { f(FAST); f(GOOD); f(BEST); f(NEAREST); f(BILINEAR); f(GAUSSIAN); }; #undef f return "UNKNOWN_FILTER"; } void cairo_pattern_set_filter (cairo_pattern_t *pattern, cairo_filter_t filter) { _enter_trace (); _emit_line_info (); _emit_pattern_op (pattern, "//%s set-filter\n", _filter_to_string (filter)); DLCALL (cairo_pattern_set_filter, pattern, filter); _exit_trace (); } static const char * _extend_to_string (cairo_extend_t extend) { #define f(name) case CAIRO_EXTEND_ ## name: return "EXTEND_" #name switch (extend) { f(NONE); f(REPEAT); f(REFLECT); f(PAD); }; #undef f return "UNKNOWN_EXTEND"; } void cairo_pattern_set_extend (cairo_pattern_t *pattern, cairo_extend_t extend) { _enter_trace (); _emit_line_info (); _emit_pattern_op (pattern, "//%s set-extend\n", _extend_to_string (extend)); DLCALL (cairo_pattern_set_extend, pattern, extend); _exit_trace (); } #if CAIRO_HAS_FT_FONT #if CAIRO_HAS_FC_FONT cairo_font_face_t * cairo_ft_font_face_create_for_pattern (FcPattern *pattern) { cairo_font_face_t *ret; long font_face_id; _enter_trace (); ret = DLCALL (cairo_ft_font_face_create_for_pattern, pattern); font_face_id = _create_font_face_id (ret); _emit_line_info (); if (pattern != NULL && _write_lock ()) { Object *obj; FcChar8 *parsed; obj = _get_object (FONT_FACE, ret); if (obj->operand != -1) _object_remove (obj); parsed = DLCALL (FcNameUnparse, pattern); _trace_printf ("dict\n" " /type 42 set\n" " /pattern "); _emit_string_literal ((char *) parsed, -1); _trace_printf (" set\n" " font %% f%ld\n", font_face_id); _push_operand (FONT_FACE, ret); _write_unlock (); free (parsed); } _exit_trace (); return ret; } #endif /* CAIRO_HAS_FC_FONT*/ typedef struct _ft_face_data { unsigned long index; unsigned long size; void *data; } FtFaceData; static void _ft_face_data_destroy (void *arg) { FtFaceData *data = arg; free (data->data); free (data); } cairo_font_face_t * cairo_ft_font_face_create_for_ft_face (FT_Face face, int load_flags) { cairo_font_face_t *ret; Object *obj; FtFaceData *data; long font_face_id; _enter_trace (); ret = DLCALL (cairo_ft_font_face_create_for_ft_face, face, load_flags); font_face_id = _create_font_face_id (ret); if (face == NULL) { _exit_trace (); return ret; } obj = _get_object (NONE, face); data = obj->data; if (data == NULL) { _exit_trace (); return ret; } _emit_line_info (); if (_write_lock ()) { obj = _get_object (FONT_FACE, ret); if (obj->operand != -1) _object_remove (obj); _trace_printf ("<< /type 42 /source "); _emit_data (data->data, data->size); _trace_printf (" /index %lu /flags %d >> font %% f%ld\n", data->index, load_flags, font_face_id); _push_operand (FONT_FACE, ret); _write_unlock (); } _exit_trace (); return ret; } static cairo_bool_t _ft_read_file (FtFaceData *data, const char *path) { char buf[8192]; FILE *file; file = fopen (path, "rb"); if (file != NULL) { size_t ret; unsigned long int allocated = sizeof (buf); data->data = malloc (allocated); do { ret = fread (buf, 1, sizeof (buf), file); if (ret == 0) break; memcpy ((char *) data->data + data->size, buf, ret); data->size += ret; if (ret != sizeof (buf)) break; if (data->size == allocated) { allocated *= 2; data->data = realloc (data->data, allocated); } } while (TRUE); fclose (file); } return file != NULL; } FT_Error FT_New_Face (FT_Library library, const char *pathname, FT_Long index, FT_Face *face) { FT_Error ret; _enter_trace (); ret = DLCALL (FT_New_Face, library, pathname, index, face); if (ret == 0) { Object *obj = _type_object_create (NONE, *face); FtFaceData *data = malloc (sizeof (FtFaceData)); data->index = index; data->size = 0; data->data = NULL; _ft_read_file (data, pathname); obj->data = data; obj->destroy = _ft_face_data_destroy; } _exit_trace (); return ret; } FT_Error FT_New_Memory_Face (FT_Library library, const FT_Byte *mem, FT_Long size, FT_Long index, FT_Face *face) { FT_Error ret; _enter_trace (); ret = DLCALL (FT_New_Memory_Face, library, mem, size, index, face); if (ret == 0) { Object *obj = _type_object_create (NONE, *face); FtFaceData *data = malloc (sizeof (FtFaceData)); data->index = index; data->size = size; data->data = malloc (size); memcpy (data->data, mem, size); obj->data = data; obj->destroy = _ft_face_data_destroy; } _exit_trace (); return ret; } /* XXX * FT_New_Memory_Face() and FT_New_Face() appear to wrap FT_Open_Face() so we * get a redundant call to FT_Open_Face() from those paths (no PLT hiding * within FT, naughty library!) but we do not intercept a direct call to * FT_Open_Face(). So far this has not caused any issues, but it will one * day... */ FT_Error FT_Open_Face (FT_Library library, const FT_Open_Args *args, FT_Long index, FT_Face *face) { FT_Error ret; _enter_trace (); ret = DLCALL (FT_Open_Face, library, args, index, face); if (ret == 0) { Object *obj = _get_object (NONE, *face); if (obj == NULL) { FtFaceData *data; data = malloc (sizeof (FtFaceData)); data->index = index; if (args->flags & FT_OPEN_MEMORY) { data->size = args->memory_size; data->data = malloc (args->memory_size); memcpy (data->data, args->memory_base, args->memory_size); } else if (args->flags & FT_OPEN_STREAM) { fprintf (stderr, "FT_Open_Face (stream, %ld) = %p\n", index, *face); abort (); } else if (args->flags & FT_OPEN_PATHNAME) { data->size = 0; data->data = NULL; _ft_read_file (data, args->pathname); } obj = _type_object_create (NONE, *face); obj->data = data; obj->destroy = _ft_face_data_destroy; } } _exit_trace (); return ret; } FT_Error FT_Done_Face (FT_Face face) { FT_Error ret; _enter_trace (); _object_destroy (_get_object (NONE, face)); ret = DLCALL (FT_Done_Face, face); _exit_trace (); return ret; } #endif static void _surface_object_set_size (cairo_surface_t *surface, int width, int height) { Object *obj; obj = _get_object (SURFACE, surface); obj->width = width; obj->height = height; } static void _surface_object_set_size_from_surface (cairo_surface_t *surface) { _surface_object_set_size (surface, DLCALL (cairo_image_surface_get_width, surface), DLCALL (cairo_image_surface_get_height, surface)); } #if CAIRO_HAS_PS_SURFACE #include cairo_surface_t * cairo_ps_surface_create (const char *filename, double width_in_points, double height_in_points) { cairo_surface_t *ret; _enter_trace (); ret = DLCALL (cairo_ps_surface_create, filename, width_in_points, height_in_points); _emit_line_info (); if (_write_lock ()) { Object *obj = _create_surface (ret); _trace_printf ("dict\n" " /type /PS set\n" " /filename "); _emit_string_literal (filename, -1); _trace_printf (" set\n" " /width %g set\n" " /height %g set\n" " surface %% s%ld\n", width_in_points, height_in_points, obj->token); obj->width = width_in_points; obj->height = height_in_points; _push_object (obj); _write_unlock (); } _exit_trace (); return ret; } cairo_surface_t * cairo_ps_surface_create_for_stream (cairo_write_func_t write_func, void *closure, double width_in_points, double height_in_points) { cairo_surface_t *ret; _enter_trace (); ret = DLCALL (cairo_ps_surface_create_for_stream, write_func, closure, width_in_points, height_in_points); _emit_line_info (); if (_write_lock ()) { Object *obj = _create_surface (ret); _trace_printf ("dict\n" " /type /PS set\n" " /width %g set\n" " /height %g set\n" " surface %% s%ld\n", width_in_points, height_in_points, obj->token); obj->width = width_in_points; obj->height = height_in_points; _push_object (obj); _write_unlock (); } _exit_trace (); return ret; } void cairo_ps_surface_set_size (cairo_surface_t *surface, double width_in_points, double height_in_points) { _enter_trace (); _emit_line_info (); DLCALL (cairo_ps_surface_set_size, surface, width_in_points, height_in_points); _exit_trace (); } #endif #if CAIRO_HAS_PDF_SURFACE #include cairo_surface_t * cairo_pdf_surface_create (const char *filename, double width_in_points, double height_in_points) { cairo_surface_t *ret; _enter_trace (); ret = DLCALL (cairo_pdf_surface_create, filename, width_in_points, height_in_points); _emit_line_info (); if (_write_lock ()) { Object *obj = _create_surface (ret); _trace_printf ("dict\n" " /type /PDF set\n" " /filename "); _emit_string_literal (filename, -1); _trace_printf (" set\n" " /width %g set\n" " /height %g set\n" " surface %% s%ld\n", width_in_points, height_in_points, obj->token); obj->width = width_in_points; obj->height = height_in_points; _push_object (obj); _write_unlock (); } _exit_trace (); return ret; } cairo_surface_t * cairo_pdf_surface_create_for_stream (cairo_write_func_t write_func, void *closure, double width_in_points, double height_in_points) { cairo_surface_t *ret; _enter_trace (); ret = DLCALL (cairo_pdf_surface_create_for_stream, write_func, closure, width_in_points, height_in_points); _emit_line_info (); if (_write_lock ()) { Object *obj = _create_surface (ret); _trace_printf ("dict\n" " /type /PDF set\n" " /width %g set\n" " /height %g set\n" " surface %% s%ld\n", width_in_points, height_in_points, obj->token); obj->width = width_in_points; obj->height = height_in_points; _push_object (obj); _write_unlock (); } _exit_trace (); return ret; } void cairo_pdf_surface_set_size (cairo_surface_t *surface, double width_in_points, double height_in_points) { _enter_trace (); _emit_line_info (); DLCALL (cairo_pdf_surface_set_size, surface, width_in_points, height_in_points); _exit_trace (); } #endif #if CAIRO_HAS_SVG_SURFACE #include cairo_surface_t * cairo_svg_surface_create (const char *filename, double width, double height) { cairo_surface_t *ret; _enter_trace (); ret = DLCALL (cairo_svg_surface_create, filename, width, height); _emit_line_info (); if (_write_lock ()) { Object *obj = _create_surface (ret); _trace_printf ("dict\n" " /type /SVG set\n" " /filename "); _emit_string_literal (filename, -1); _trace_printf (" set\n" " /width %g set\n" " /height %g set\n" " surface %% s%ld\n", width, height, obj->token); obj->width = width; obj->height = height; _push_object (obj); _write_unlock (); } _exit_trace (); return ret; } cairo_surface_t * cairo_svg_surface_create_for_stream (cairo_write_func_t write_func, void *closure, double width, double height) { cairo_surface_t *ret; _enter_trace (); ret = DLCALL (cairo_svg_surface_create_for_stream, write_func, closure, width, height); _emit_line_info (); if (_write_lock ()) { Object *obj = _create_surface (ret); _trace_printf ("dict\n" " /type /SVG set\n" " /width %g set\n" " /height %g set\n" " surface %% s%ld\n", width, height, obj->token); obj->width = width; obj->height = height; _push_object (obj); _write_unlock (); } _exit_trace (); return ret; } #endif #if CAIRO_HAS_PNG_FUNCTIONS cairo_surface_t * cairo_image_surface_create_from_png (const char *filename) { cairo_surface_t *ret; _enter_trace (); ret = DLCALL (cairo_image_surface_create_from_png, filename); _emit_line_info (); if (_write_lock ()) { Object *obj = _create_surface (ret); char filename_string[4096]; _encode_string_literal (filename_string, sizeof (filename_string), filename, -1); _emit_image (ret, " /filename %s set\n", filename_string); _trace_printf (" dup /s%ld exch def\n", obj->token); _surface_object_set_size_from_surface (ret); obj->defined = TRUE; _push_object (obj); _write_unlock (); } _exit_trace (); return ret; } cairo_surface_t * cairo_image_surface_create_from_png_stream (cairo_read_func_t read_func, void *closure) { cairo_surface_t *ret; _enter_trace (); ret = DLCALL (cairo_image_surface_create_from_png_stream, read_func, closure); _emit_line_info (); if (_write_lock ()) { Object *obj = _create_surface (ret); _emit_image (ret, NULL); _trace_printf (" dup /s%ld exch def\n", obj->token); _surface_object_set_size_from_surface (ret); obj->defined = TRUE; _push_object (obj); _write_unlock (); } _exit_trace (); return ret; } #endif static const char * _content_from_surface (cairo_surface_t *surface) { return _content_to_string (DLCALL (cairo_surface_get_content, surface)); } #if CAIRO_HAS_XLIB_SURFACE #include cairo_surface_t * cairo_xlib_surface_create (Display *dpy, Drawable drawable, Visual *visual, int width, int height) { cairo_surface_t *ret; _enter_trace (); ret = DLCALL (cairo_xlib_surface_create, dpy, drawable, visual, width, height); _emit_line_info (); if (_write_lock ()) { Object *obj = _create_surface (ret); _trace_printf ("dict\n" " /type /xlib set\n" " /drawable 16!%lx set\n" " /content //%s set\n" " /width %d set\n" " /height %d set\n" " surface dup /s%ld exch def\n", drawable, _content_from_surface (ret), width, height, obj->token); obj->defined = TRUE; obj->width = width; obj->height = height; obj->foreign = TRUE; _push_object (obj); _write_unlock (); } _exit_trace (); return ret; } cairo_surface_t * cairo_xlib_surface_create_for_bitmap (Display *dpy, Pixmap bitmap, Screen *screen, int width, int height) { cairo_surface_t *ret; _enter_trace (); ret = DLCALL (cairo_xlib_surface_create_for_bitmap, dpy, bitmap, screen, width, height); _emit_line_info (); if (_write_lock ()) { Object *obj = _create_surface (ret); _trace_printf ("dict\n" " /type /xlib set\n" " /drawable 16!%lx set\n" " /content //%s set\n" " /width %d set\n" " /height %d set\n" " /depth 1 set\n" " surface dup /s%ld exch def\n", bitmap, _content_from_surface (ret), width, height, obj->token); obj->defined = TRUE; obj->width = width; obj->height = height; obj->foreign = TRUE; _push_object (obj); _write_unlock (); } _exit_trace (); return ret; } #if CAIRO_HAS_XLIB_XRENDER_SURFACE #include cairo_surface_t * cairo_xlib_surface_create_with_xrender_format (Display *dpy, Drawable drawable, Screen *screen, XRenderPictFormat *format, int width, int height) { cairo_surface_t *ret; _enter_trace (); ret = DLCALL (cairo_xlib_surface_create_with_xrender_format, dpy, drawable, screen, format, width, height); _emit_line_info (); if (_write_lock ()) { Object *obj = _create_surface (ret); _trace_printf ("dict\n" " /type /xrender set\n" " /drawable 16!%lx set\n" " /content //%s set\n" " /width %d set\n" " /height %d set\n" " /depth %d set\n" " surface dup /s%ld exch def\n", drawable, _content_from_surface (ret), width, height, format->depth, obj->token); obj->defined = TRUE; obj->width = width; obj->height = height; obj->foreign = TRUE; _push_object (obj); _write_unlock (); } _exit_trace (); return ret; } #endif #endif #if CAIRO_HAS_SCRIPT_SURFACE #include cairo_surface_t * cairo_script_surface_create (cairo_device_t *device, cairo_content_t content, double width, double height) { cairo_surface_t *ret; _enter_trace (); ret = DLCALL (cairo_script_surface_create, device, content, width, height); _emit_line_info (); if (_write_lock ()) { Object *obj = _create_surface (ret); _trace_printf ("dict\n" " /type /script set\n" " /content %s set\n" " /width %g set\n" " /height %g set\n" " surface dup /s%ld exch def\n", _content_to_string (content), width, height, obj->token); obj->width = width; obj->height = height; obj->defined = TRUE; _push_object (obj); _write_unlock (); } _exit_trace (); return ret; } cairo_surface_t * cairo_script_surface_create_for_target (cairo_device_t *device, cairo_surface_t *target) { cairo_surface_t *ret; _enter_trace (); ret = DLCALL (cairo_script_surface_create_for_target, device, target); _emit_line_info (); if (_write_lock ()) { Object *obj = _create_surface (ret); _trace_printf ("dict\n" " /type /script set\n" " surface dup /s%ld exch def\n", obj->token); obj->defined = TRUE; _push_object (obj); _write_unlock (); } _exit_trace (); return ret; } #endif #if CAIRO_HAS_TEST_SURFACES #include cairo_surface_t * _cairo_test_paginated_surface_create (cairo_surface_t *surface) { cairo_surface_t *ret; _enter_trace (); ret = DLCALL (_cairo_test_paginated_surface_create, surface); _emit_line_info (); if (_write_lock ()) { Object *obj = _create_surface (ret); /* XXX store initial data? */ _trace_printf ("dict\n" " /type /test-paginated set\n" " /target s%ld set\n" " surface dup /s%ld exch def\n", _get_surface_id (surface), obj->token); _push_object (obj); _write_unlock (); } _exit_trace (); return ret; } #include cairo_surface_t * _cairo_test_fallback_compositor_surface_create (cairo_content_t content, int width, int height) { cairo_surface_t *ret; _enter_trace (); ret = DLCALL (_cairo_test_fallback_compositor_surface_create, content, width, height); _emit_line_info (); if (_write_lock ()) { Object *obj = _create_surface (ret); _trace_printf ("dict\n" " /type /test-fallback-compositor set\n" " /content //%s set\n" " /width %d set\n" " /height %d set\n" " surface dup /s%ld exch def\n", _content_to_string (content), width, height, obj->token); obj->defined = TRUE; _push_object (obj); _write_unlock (); } _exit_trace (); return ret; } cairo_surface_t * _cairo_test_mask_compositor_surface_create (cairo_content_t content, int width, int height) { cairo_surface_t *ret; _enter_trace (); ret = DLCALL (_cairo_test_mask_compositor_surface_create, content, width, height); _emit_line_info (); if (_write_lock ()) { Object *obj = _create_surface (ret); _trace_printf ("dict\n" " /type /test-mask-compositor set\n" " /content //%s set\n" " /width %d set\n" " /height %d set\n" " surface dup /s%ld exch def\n", _content_to_string (content), width, height, obj->token); obj->defined = TRUE; _push_object (obj); _write_unlock (); } _exit_trace (); return ret; } cairo_surface_t * _cairo_test_spans_compositor_surface_create (cairo_content_t content, int width, int height) { cairo_surface_t *ret; _enter_trace (); ret = DLCALL (_cairo_test_spans_compositor_surface_create, content, width, height); _emit_line_info (); if (_write_lock ()) { Object *obj = _create_surface (ret); _trace_printf ("dict\n" " /type /test-spans-compositor set\n" " /content //%s set\n" " /width %d set\n" " /height %d set\n" " surface dup /s%ld exch def\n", _content_to_string (content), width, height, obj->token); obj->defined = TRUE; _push_object (obj); _write_unlock (); } _exit_trace (); return ret; } cairo_surface_t * _cairo_test_traps_compositor_surface_create (cairo_content_t content, int width, int height) { cairo_surface_t *ret; _enter_trace (); ret = DLCALL (_cairo_test_traps_compositor_surface_create, content, width, height); _emit_line_info (); if (_write_lock ()) { Object *obj = _create_surface (ret); _trace_printf ("dict\n" " /type /test-traps-compositor set\n" " /content //%s set\n" " /width %d set\n" " /height %d set\n" " surface dup /s%ld exch def\n", _content_to_string (content), width, height, obj->token); obj->defined = TRUE; _push_object (obj); _write_unlock (); } _exit_trace (); return ret; } #endif cairo_surface_t * cairo_recording_surface_create (cairo_content_t content, const cairo_rectangle_t *extents) { cairo_surface_t *ret; _enter_trace (); ret = DLCALL (cairo_recording_surface_create, content, extents); _emit_line_info (); if (_write_lock ()) { Object *obj = _create_surface (ret); if (extents) { _trace_printf ("//%s [ %f %f %f %f ] record dup /s%ld exch def\n", _content_to_string (content), extents->x, extents->y, extents->width, extents->height, obj->token); obj->width = extents->width; obj->height = extents->height; } else { _trace_printf ("//%s [ ] record dup /s%ld exch def\n", _content_to_string (content), obj->token); } obj->defined = TRUE; _push_object (obj); _write_unlock (); } _exit_trace (); return ret; } #if CAIRO_HAS_VG_SURFACE #include cairo_surface_t * cairo_vg_surface_create (cairo_vg_context_t *context, cairo_content_t content, int width, int height) { cairo_surface_t *ret; _enter_trace (); ret = DLCALL (cairo_vg_surface_create, context, content, width, height); _emit_line_info (); if (_write_lock ()) { Object *obj = _create_surface (ret); _trace_printf ("dict\n" " /type /vg set\n" " /content //%s set\n" " /width %d set\n" " /height %d set\n" " surface dup /s%ld exch def\n", _content_to_string (content), width, height, obj->token); obj->width = width; obj->height = height; obj->defined = TRUE; _push_object (obj); _write_unlock (); } _exit_trace (); return ret; } cairo_surface_t * cairo_vg_surface_create_for_image (cairo_vg_context_t *context, VGImage image, VGImageFormat format, int width, int height) { cairo_surface_t *ret; _enter_trace (); ret = DLCALL (cairo_vg_surface_create_for_image, context, image, format, width, height); _emit_line_info (); if (_write_lock ()) { Object *obj = _create_surface (ret); cairo_content_t content; content = DLCALL (cairo_surface_get_content, ret); _trace_printf ("dict\n" " /type /vg set\n" " /content //%s set\n" " /width %d set\n" " /height %d set\n" " surface dup /s%ld exch def\n", _content_to_string (content), width, height, obj->token); obj->width = width; obj->height = height; obj->defined = TRUE; _push_object (obj); _write_unlock (); } _exit_trace (); return ret; } #endif