This commit is contained in:
Daniel Genrich 2008-01-21 02:42:42 +00:00
commit ddef077b38
140 changed files with 7749 additions and 1952 deletions

@ -68,6 +68,7 @@ OPTION(WITH_FFMPEG "Enable FFMPeg Support (http://ffmpeg.mplayerhq.hu/)" OFF)
OPTION(WITH_OPENAL "Enable OpenAL Support (http://www.openal.org)" ON)
OPTION(YESIAMSTUPID "Enable execution on 64-bit platforms" OFF)
OPTION(WITH_OPENMP "Enable OpenMP (has to be supported by the compiler)" OFF)
OPTION(WITH_BINRELOC "Enable binreloc filepath support" OFF)
IF(NOT WITH_GAMEENGINE AND WITH_PLAYER)
MESSAGE("WARNING: WITH_PLAYER needs WITH_GAMEENGINE")
@ -264,6 +265,9 @@ IF(WIN32)
SET(FFMPEG_LIB avcodec-51 avformat-51 avutil-49)
SET(FFMPEG_LIBPATH ${FFMPEG}/lib)
SET(BINRELC ${LIBDIR}/binreloc)
SET(BINRELC_INC ${BINRELOC}/include)
SET(LLIBS kernel32 user32 gdi32 comdlg32 advapi32 shell32 ole32 oleaut32 uuid ws2_32 vfw32 winmm)
IF(WITH_OPENAL)
SET(LLIBS ${LLIBS} dxguid)

@ -114,6 +114,8 @@ BF_ICONV_INC = '${BF_ICONV}/include'
BF_ICONV_LIB = 'iconv'
BF_ICONV_LIBPATH = '${BF_ICONV}/lib'
WITH_BF_BINRELOC = 'true'
# enable ffmpeg support
WITH_BF_FFMPEG = 'true' # -DWITH_FFMPEG
BF_FFMPEG = '#extern/ffmpeg'

@ -106,6 +106,8 @@ BF_WINTAB_INC = '${BF_WINTAB}/INCLUDE'
WITH_BF_YAFRAY = 'true'
WITH_BF_BINRELOC = 'false'
#WITH_BF_NSPR = 'true'
#BF_NSPR = $(LIBDIR)/nspr
#BF_NSPR_INC = -I$(BF_NSPR)/include -I$(BF_NSPR)/include/nspr

@ -43,3 +43,6 @@ IF(WITH_VERSE)
SUBDIRS(verse)
ENDIF(WITH_VERSE)
if(WITH_BINRELOC)
SUBDIRS(binreloc)
ENDIF(WITH_BINRELOC)

4
extern/Makefile vendored

@ -56,6 +56,10 @@ ifneq ($(NAN_NO_KETSJI), true)
DIRS += bullet2
endif
ifeq ($(WITH_BINRELOC), true)
DIRS += binreloc
endif
TARGET =
ifneq ($(OS),irix)
TARGET=solid

3
extern/SConscript vendored

@ -17,3 +17,6 @@ if env['WITH_BF_VERSE']:
if env['WITH_BF_FFMPEG'] and env['BF_FFMPEG_LIB'] == '':
SConscript(['ffmpeg/SConscript']);
if env['OURPLATFORM'] == 'linux2':
SConscript(['binreloc/SConscript']);

26
extern/binreloc/CMakeLists.txt vendored Normal file

@ -0,0 +1,26 @@
# ***** BEGIN GPL LICENSE BLOCK *****
#
# 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 2
# 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, write to the Free Software Foundation,
# Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
#
# The Original Code is Copyright (C) 2008 by The Blender Foundation
# All rights reserved.
#
SET(INC ./include ${WINTAB_INC})
ADD_DEFINITIONS(-DWITH_BINRELOC)
FILE(GLOB SRC *.c)
BLENDERLIB(binreloc "${SRC}" "${INC}")
#, libtype=['core','player'], priority = [25,15] )

37
extern/binreloc/Makefile vendored Normal file

@ -0,0 +1,37 @@
#
# ***** BEGIN GPL LICENSE BLOCK *****
#
# 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 2
# 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, write to the Free Software Foundation,
# Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
#
# The Original Code is Copyright (C) 2008 by The Blender Foundation
# All rights reserved.
#
#
LIBNAME = binreloc
DIR = $(OCGDIR)/extern/$(LIBNAME)
include nan_definitions.mk
CPPFLAGS += -I./include
include nan_compile.mk
install: all debug
@[ -d $(DIR) ] || mkdir $(DIR)
@[ -d $(DIR)/include ] || mkdir $(DIR)/include
@../../intern/tools/cpifdiff.sh include/*.h $(DIR)/include/

13
extern/binreloc/SConscript vendored Normal file

@ -0,0 +1,13 @@
#!/usr/bin/python
import sys
import os
Import('env')
defs = 'ENABLE_BINRELOC'
cflags = []
sources = ['binreloc.c']
incs = 'include'
env.BlenderLib ( 'extern_binreloc', sources, Split(incs), Split(defs), libtype=['intern','player'], priority=[36, 114], compileflags = cflags)

766
extern/binreloc/binreloc.c vendored Normal file

@ -0,0 +1,766 @@
/*
* BinReloc - a library for creating relocatable executables
* Written by: Hongli Lai <h.lai@chello.nl>
* http://autopackage.org/
*
* This source code is public domain. You can relicense this code
* under whatever license you want.
*
* See http://autopackage.org/docs/binreloc/ for
* more information and how to use this.
*/
#ifndef __BINRELOC_C__
#define __BINRELOC_C__
#ifdef ENABLE_BINRELOC
#include <sys/types.h>
#include <sys/stat.h>
#include <unistd.h>
#endif /* ENABLE_BINRELOC */
#include <stdio.h>
#include <stdlib.h>
#include <limits.h>
#include <string.h>
#include "binreloc.h"
#ifdef __cplusplus
extern "C" {
#endif /* __cplusplus */
/** @internal
* Find the canonical filename of the executable. Returns the filename
* (which must be freed) or NULL on error. If the parameter 'error' is
* not NULL, the error code will be stored there, if an error occured.
*/
static char *
_br_find_exe (BrInitError *error)
{
#ifndef ENABLE_BINRELOC
if (error)
*error = BR_INIT_ERROR_DISABLED;
return NULL;
#else
char *path, *path2, *line, *result;
size_t buf_size;
ssize_t size;
struct stat stat_buf;
FILE *f;
/* Read from /proc/self/exe (symlink) */
if (sizeof (path) > SSIZE_MAX)
buf_size = SSIZE_MAX - 1;
else
buf_size = PATH_MAX - 1;
path = (char *) malloc (buf_size);
if (path == NULL) {
/* Cannot allocate memory. */
if (error)
*error = BR_INIT_ERROR_NOMEM;
return NULL;
}
path2 = (char *) malloc (buf_size);
if (path2 == NULL) {
/* Cannot allocate memory. */
if (error)
*error = BR_INIT_ERROR_NOMEM;
free (path);
return NULL;
}
strncpy (path2, "/proc/self/exe", buf_size - 1);
while (1) {
int i;
size = readlink (path2, path, buf_size - 1);
if (size == -1) {
/* Error. */
free (path2);
break;
}
/* readlink() success. */
path[size] = '\0';
/* Check whether the symlink's target is also a symlink.
* We want to get the final target. */
i = stat (path, &stat_buf);
if (i == -1) {
/* Error. */
free (path2);
break;
}
/* stat() success. */
if (!S_ISLNK (stat_buf.st_mode)) {
/* path is not a symlink. Done. */
free (path2);
return path;
}
/* path is a symlink. Continue loop and resolve this. */
strncpy (path, path2, buf_size - 1);
}
/* readlink() or stat() failed; this can happen when the program is
* running in Valgrind 2.2. Read from /proc/self/maps as fallback. */
buf_size = PATH_MAX + 128;
line = (char *) realloc (path, buf_size);
if (line == NULL) {
/* Cannot allocate memory. */
free (path);
if (error)
*error = BR_INIT_ERROR_NOMEM;
return NULL;
}
f = fopen ("/proc/self/maps", "r");
if (f == NULL) {
free (line);
if (error)
*error = BR_INIT_ERROR_OPEN_MAPS;
return NULL;
}
/* The first entry should be the executable name. */
result = fgets (line, (int) buf_size, f);
if (result == NULL) {
fclose (f);
free (line);
if (error)
*error = BR_INIT_ERROR_READ_MAPS;
return NULL;
}
/* Get rid of newline character. */
buf_size = strlen (line);
if (buf_size <= 0) {
/* Huh? An empty string? */
fclose (f);
free (line);
if (error)
*error = BR_INIT_ERROR_INVALID_MAPS;
return NULL;
}
if (line[buf_size - 1] == 10)
line[buf_size - 1] = 0;
/* Extract the filename; it is always an absolute path. */
path = strchr (line, '/');
/* Sanity check. */
if (strstr (line, " r-xp ") == NULL || path == NULL) {
fclose (f);
free (line);
if (error)
*error = BR_INIT_ERROR_INVALID_MAPS;
return NULL;
}
path = strdup (path);
free (line);
fclose (f);
return path;
#endif /* ENABLE_BINRELOC */
}
/** @internal
* Find the canonical filename of the executable which owns symbol.
* Returns a filename which must be freed, or NULL on error.
*/
static char *
_br_find_exe_for_symbol (const void *symbol, BrInitError *error)
{
#ifndef ENABLE_BINRELOC
if (error)
*error = BR_INIT_ERROR_DISABLED;
return (char *) NULL;
#else
#define SIZE PATH_MAX + 100
FILE *f;
size_t address_string_len;
char *address_string, line[SIZE], *found;
if (symbol == NULL)
return (char *) NULL;
f = fopen ("/proc/self/maps", "r");
if (f == NULL)
return (char *) NULL;
address_string_len = 4;
address_string = (char *) malloc (address_string_len);
found = (char *) NULL;
while (!feof (f)) {
char *start_addr, *end_addr, *end_addr_end, *file;
void *start_addr_p, *end_addr_p;
size_t len;
if (fgets (line, SIZE, f) == NULL)
break;
/* Sanity check. */
if (strstr (line, " r-xp ") == NULL || strchr (line, '/') == NULL)
continue;
/* Parse line. */
start_addr = line;
end_addr = strchr (line, '-');
file = strchr (line, '/');
/* More sanity check. */
if (!(file > end_addr && end_addr != NULL && end_addr[0] == '-'))
continue;
end_addr[0] = '\0';
end_addr++;
end_addr_end = strchr (end_addr, ' ');
if (end_addr_end == NULL)
continue;
end_addr_end[0] = '\0';
len = strlen (file);
if (len == 0)
continue;
if (file[len - 1] == '\n')
file[len - 1] = '\0';
/* Get rid of "(deleted)" from the filename. */
len = strlen (file);
if (len > 10 && strcmp (file + len - 10, " (deleted)") == 0)
file[len - 10] = '\0';
/* I don't know whether this can happen but better safe than sorry. */
len = strlen (start_addr);
if (len != strlen (end_addr))
continue;
/* Transform the addresses into a string in the form of 0xdeadbeef,
* then transform that into a pointer. */
if (address_string_len < len + 3) {
address_string_len = len + 3;
address_string = (char *) realloc (address_string, address_string_len);
}
memcpy (address_string, "0x", 2);
memcpy (address_string + 2, start_addr, len);
address_string[2 + len] = '\0';
sscanf (address_string, "%p", &start_addr_p);
memcpy (address_string, "0x", 2);
memcpy (address_string + 2, end_addr, len);
address_string[2 + len] = '\0';
sscanf (address_string, "%p", &end_addr_p);
if (symbol >= start_addr_p && symbol < end_addr_p) {
found = file;
break;
}
}
free (address_string);
fclose (f);
if (found == NULL)
return (char *) NULL;
else
return strdup (found);
#endif /* ENABLE_BINRELOC */
}
#ifndef BINRELOC_RUNNING_DOXYGEN
#undef NULL
#define NULL ((void *) 0) /* typecasted as char* for C++ type safeness */
#endif
static char *exe = (char *) NULL;
/** Initialize the BinReloc library (for applications).
*
* This function must be called before using any other BinReloc functions.
* It attempts to locate the application's canonical filename.
*
* @note If you want to use BinReloc for a library, then you should call
* br_init_lib() instead.
*
* @param error If BinReloc failed to initialize, then the error code will
* be stored in this variable. Set to NULL if you want to
* ignore this. See #BrInitError for a list of error codes.
*
* @returns 1 on success, 0 if BinReloc failed to initialize.
*/
int
br_init (BrInitError *error)
{
exe = _br_find_exe (error);
return exe != NULL;
}
/** Initialize the BinReloc library (for libraries).
*
* This function must be called before using any other BinReloc functions.
* It attempts to locate the calling library's canonical filename.
*
* @note The BinReloc source code MUST be included in your library, or this
* function won't work correctly.
*
* @param error If BinReloc failed to initialize, then the error code will
* be stored in this variable. Set to NULL if you want to
* ignore this. See #BrInitError for a list of error codes.
*
* @returns 1 on success, 0 if a filename cannot be found.
*/
int
br_init_lib (BrInitError *error)
{
exe = _br_find_exe_for_symbol ((const void *) "", error);
return exe != NULL;
}
/** Find the canonical filename of the current application.
*
* @param default_exe A default filename which will be used as fallback.
* @returns A string containing the application's canonical filename,
* which must be freed when no longer necessary. If BinReloc is
* not initialized, or if br_init() failed, then a copy of
* default_exe will be returned. If default_exe is NULL, then
* NULL will be returned.
*/
char *
br_find_exe (const char *default_exe)
{
if (exe == (char *) NULL) {
/* BinReloc is not initialized. */
if (default_exe != (const char *) NULL)
return strdup (default_exe);
else
return (char *) NULL;
}
return strdup (exe);
}
/** Locate the directory in which the current application is installed.
*
* The prefix is generated by the following pseudo-code evaluation:
* \code
* dirname(exename)
* \endcode
*
* @param default_dir A default directory which will used as fallback.
* @return A string containing the directory, which must be freed when no
* longer necessary. If BinReloc is not initialized, or if the
* initialization function failed, then a copy of default_dir
* will be returned. If default_dir is NULL, then NULL will be
* returned.
*/
char *
br_find_exe_dir (const char *default_dir)
{
if (exe == NULL) {
/* BinReloc not initialized. */
if (default_dir != NULL)
return strdup (default_dir);
else
return NULL;
}
return br_dirname (exe);
}
/** Locate the prefix in which the current application is installed.
*
* The prefix is generated by the following pseudo-code evaluation:
* \code
* dirname(dirname(exename))
* \endcode
*
* @param default_prefix A default prefix which will used as fallback.
* @return A string containing the prefix, which must be freed when no
* longer necessary. If BinReloc is not initialized, or if
* the initialization function failed, then a copy of default_prefix
* will be returned. If default_prefix is NULL, then NULL will be returned.
*/
char *
br_find_prefix (const char *default_prefix)
{
char *dir1, *dir2;
if (exe == (char *) NULL) {
/* BinReloc not initialized. */
if (default_prefix != (const char *) NULL)
return strdup (default_prefix);
else
return (char *) NULL;
}
dir1 = br_dirname (exe);
dir2 = br_dirname (dir1);
free (dir1);
return dir2;
}
/** Locate the application's binary folder.
*
* The path is generated by the following pseudo-code evaluation:
* \code
* prefix + "/bin"
* \endcode
*
* @param default_bin_dir A default path which will used as fallback.
* @return A string containing the bin folder's path, which must be freed when
* no longer necessary. If BinReloc is not initialized, or if
* the initialization function failed, then a copy of default_bin_dir will
* be returned. If default_bin_dir is NULL, then NULL will be returned.
*/
char *
br_find_bin_dir (const char *default_bin_dir)
{
char *prefix, *dir;
prefix = br_find_prefix ((const char *) NULL);
if (prefix == (char *) NULL) {
/* BinReloc not initialized. */
if (default_bin_dir != (const char *) NULL)
return strdup (default_bin_dir);
else
return (char *) NULL;
}
dir = br_build_path (prefix, "bin");
free (prefix);
return dir;
}
/** Locate the application's superuser binary folder.
*
* The path is generated by the following pseudo-code evaluation:
* \code
* prefix + "/sbin"
* \endcode
*
* @param default_sbin_dir A default path which will used as fallback.
* @return A string containing the sbin folder's path, which must be freed when
* no longer necessary. If BinReloc is not initialized, or if the
* initialization function failed, then a copy of default_sbin_dir will
* be returned. If default_bin_dir is NULL, then NULL will be returned.
*/
char *
br_find_sbin_dir (const char *default_sbin_dir)
{
char *prefix, *dir;
prefix = br_find_prefix ((const char *) NULL);
if (prefix == (char *) NULL) {
/* BinReloc not initialized. */
if (default_sbin_dir != (const char *) NULL)
return strdup (default_sbin_dir);
else
return (char *) NULL;
}
dir = br_build_path (prefix, "sbin");
free (prefix);
return dir;
}
/** Locate the application's data folder.
*
* The path is generated by the following pseudo-code evaluation:
* \code
* prefix + "/share"
* \endcode
*
* @param default_data_dir A default path which will used as fallback.
* @return A string containing the data folder's path, which must be freed when
* no longer necessary. If BinReloc is not initialized, or if the
* initialization function failed, then a copy of default_data_dir
* will be returned. If default_data_dir is NULL, then NULL will be
* returned.
*/
char *
br_find_data_dir (const char *default_data_dir)
{
char *prefix, *dir;
prefix = br_find_prefix ((const char *) NULL);
if (prefix == (char *) NULL) {
/* BinReloc not initialized. */
if (default_data_dir != (const char *) NULL)
return strdup (default_data_dir);
else
return (char *) NULL;
}
dir = br_build_path (prefix, "share");
free (prefix);
return dir;
}
/** Locate the application's localization folder.
*
* The path is generated by the following pseudo-code evaluation:
* \code
* prefix + "/share/locale"
* \endcode
*
* @param default_locale_dir A default path which will used as fallback.
* @return A string containing the localization folder's path, which must be freed when
* no longer necessary. If BinReloc is not initialized, or if the
* initialization function failed, then a copy of default_locale_dir will be returned.
* If default_locale_dir is NULL, then NULL will be returned.
*/
char *
br_find_locale_dir (const char *default_locale_dir)
{
char *data_dir, *dir;
data_dir = br_find_data_dir ((const char *) NULL);
if (data_dir == (char *) NULL) {
/* BinReloc not initialized. */
if (default_locale_dir != (const char *) NULL)
return strdup (default_locale_dir);
else
return (char *) NULL;
}
dir = br_build_path (data_dir, "locale");
free (data_dir);
return dir;
}
/** Locate the application's library folder.
*
* The path is generated by the following pseudo-code evaluation:
* \code
* prefix + "/lib"
* \endcode
*
* @param default_lib_dir A default path which will used as fallback.
* @return A string containing the library folder's path, which must be freed when
* no longer necessary. If BinReloc is not initialized, or if the initialization
* function failed, then a copy of default_lib_dir will be returned.
* If default_lib_dir is NULL, then NULL will be returned.
*/
char *
br_find_lib_dir (const char *default_lib_dir)
{
char *prefix, *dir;
prefix = br_find_prefix ((const char *) NULL);
if (prefix == (char *) NULL) {
/* BinReloc not initialized. */
if (default_lib_dir != (const char *) NULL)
return strdup (default_lib_dir);
else
return (char *) NULL;
}
dir = br_build_path (prefix, "lib");
free (prefix);
return dir;
}
/** Locate the application's libexec folder.
*
* The path is generated by the following pseudo-code evaluation:
* \code
* prefix + "/libexec"
* \endcode
*
* @param default_libexec_dir A default path which will used as fallback.
* @return A string containing the libexec folder's path, which must be freed when
* no longer necessary. If BinReloc is not initialized, or if the initialization
* function failed, then a copy of default_libexec_dir will be returned.
* If default_libexec_dir is NULL, then NULL will be returned.
*/
char *
br_find_libexec_dir (const char *default_libexec_dir)
{
char *prefix, *dir;
prefix = br_find_prefix ((const char *) NULL);
if (prefix == (char *) NULL) {
/* BinReloc not initialized. */
if (default_libexec_dir != (const char *) NULL)
return strdup (default_libexec_dir);
else
return (char *) NULL;
}
dir = br_build_path (prefix, "libexec");
free (prefix);
return dir;
}
/** Locate the application's configuration files folder.
*
* The path is generated by the following pseudo-code evaluation:
* \code
* prefix + "/etc"
* \endcode
*
* @param default_etc_dir A default path which will used as fallback.
* @return A string containing the etc folder's path, which must be freed when
* no longer necessary. If BinReloc is not initialized, or if the initialization
* function failed, then a copy of default_etc_dir will be returned.
* If default_etc_dir is NULL, then NULL will be returned.
*/
char *
br_find_etc_dir (const char *default_etc_dir)
{
char *prefix, *dir;
prefix = br_find_prefix ((const char *) NULL);
if (prefix == (char *) NULL) {
/* BinReloc not initialized. */
if (default_etc_dir != (const char *) NULL)
return strdup (default_etc_dir);
else
return (char *) NULL;
}
dir = br_build_path (prefix, "etc");
free (prefix);
return dir;
}
/***********************
* Utility functions
***********************/
/** Concatenate str1 and str2 to a newly allocated string.
*
* @param str1 A string.
* @param str2 Another string.
* @returns A newly-allocated string. This string should be freed when no longer needed.
*/
char *
br_strcat (const char *str1, const char *str2)
{
char *result;
size_t len1, len2;
if (str1 == NULL)
str1 = "";
if (str2 == NULL)
str2 = "";
len1 = strlen (str1);
len2 = strlen (str2);
result = (char *) malloc (len1 + len2 + 1);
memcpy (result, str1, len1);
memcpy (result + len1, str2, len2);
result[len1 + len2] = '\0';
return result;
}
char *
br_build_path (const char *dir, const char *file)
{
char *dir2, *result;
size_t len;
int must_free = 0;
len = strlen (dir);
if (len > 0 && dir[len - 1] != '/') {
dir2 = br_strcat (dir, "/");
must_free = 1;
} else
dir2 = (char *) dir;
result = br_strcat (dir2, file);
if (must_free)
free (dir2);
return result;
}
/* Emulates glibc's strndup() */
static char *
br_strndup (const char *str, size_t size)
{
char *result = (char *) NULL;
size_t len;
if (str == (const char *) NULL)
return (char *) NULL;
len = strlen (str);
if (len == 0)
return strdup ("");
if (size > len)
size = len;
result = (char *) malloc (len + 1);
memcpy (result, str, size);
result[size] = '\0';
return result;
}
/** Extracts the directory component of a path.
*
* Similar to g_dirname() or the dirname commandline application.
*
* Example:
* \code
* br_dirname ("/usr/local/foobar"); --> Returns: "/usr/local"
* \endcode
*
* @param path A path.
* @returns A directory name. This string should be freed when no longer needed.
*/
char *
br_dirname (const char *path)
{
char *end, *result;
if (path == (const char *) NULL)
return (char *) NULL;
end = strrchr (path, '/');
if (end == (const char *) NULL)
return strdup (".");
while (end > path && *end == '/')
end--;
result = br_strndup (path, end - path + 1);
if (result[0] == 0) {
free (result);
return strdup ("/");
} else
return result;
}
#ifdef __cplusplus
}
#endif /* __cplusplus */
#endif /* __BINRELOC_C__ */

80
extern/binreloc/include/binreloc.h vendored Normal file

@ -0,0 +1,80 @@
/*
* BinReloc - a library for creating relocatable executables
* Written by: Hongli Lai <h.lai@chello.nl>
* http://autopackage.org/
*
* This source code is public domain. You can relicense this code
* under whatever license you want.
*
* See http://autopackage.org/docs/binreloc/ for
* more information and how to use this.
*/
#ifndef __BINRELOC_H__
#define __BINRELOC_H__
#ifdef __cplusplus
extern "C" {
#endif /* __cplusplus */
/** These error codes can be returned by br_init(), br_init_lib(), gbr_init() or gbr_init_lib(). */
typedef enum {
/** Cannot allocate memory. */
BR_INIT_ERROR_NOMEM,
/** Unable to open /proc/self/maps; see errno for details. */
BR_INIT_ERROR_OPEN_MAPS,
/** Unable to read from /proc/self/maps; see errno for details. */
BR_INIT_ERROR_READ_MAPS,
/** The file format of /proc/self/maps is invalid; kernel bug? */
BR_INIT_ERROR_INVALID_MAPS,
/** BinReloc is disabled (the ENABLE_BINRELOC macro is not defined). */
BR_INIT_ERROR_DISABLED
} BrInitError;
#ifndef BINRELOC_RUNNING_DOXYGEN
/* Mangle symbol names to avoid symbol collisions with other ELF objects. */
#define br_init zLhm65070058860608_br_init
#define br_init_lib zLhm65070058860608_br_init_lib
#define br_find_exe zLhm65070058860608_br_find_exe
#define br_find_exe_dir zLhm65070058860608_br_find_exe_dir
#define br_find_prefix zLhm65070058860608_br_find_prefix
#define br_find_bin_dir zLhm65070058860608_br_find_bin_dir
#define br_find_sbin_dir zLhm65070058860608_br_find_sbin_dir
#define br_find_data_dir zLhm65070058860608_br_find_data_dir
#define br_find_locale_dir zLhm65070058860608_br_find_locale_dir
#define br_find_lib_dir zLhm65070058860608_br_find_lib_dir
#define br_find_libexec_dir zLhm65070058860608_br_find_libexec_dir
#define br_find_etc_dir zLhm65070058860608_br_find_etc_dir
#define br_strcat zLhm65070058860608_br_strcat
#define br_build_path zLhm65070058860608_br_build_path
#define br_dirname zLhm65070058860608_br_dirname
#endif
int br_init (BrInitError *error);
int br_init_lib (BrInitError *error);
char *br_find_exe (const char *default_exe);
char *br_find_exe_dir (const char *default_dir);
char *br_find_prefix (const char *default_prefix);
char *br_find_bin_dir (const char *default_bin_dir);
char *br_find_sbin_dir (const char *default_sbin_dir);
char *br_find_data_dir (const char *default_data_dir);
char *br_find_locale_dir (const char *default_locale_dir);
char *br_find_lib_dir (const char *default_lib_dir);
char *br_find_libexec_dir (const char *default_libexec_dir);
char *br_find_etc_dir (const char *default_etc_dir);
/* Utility functions */
char *br_strcat (const char *str1, const char *str2);
char *br_build_path (const char *dir, const char *file);
char *br_dirname (const char *path);
#ifdef __cplusplus
}
#endif /* __cplusplus */
#endif /* __BINRELOC_H__ */

@ -152,8 +152,9 @@ void BMF_DrawStringTexture(BMF_Font* font, char* string, float x, float y, float
* @param fbuf float image buffer, when NULL to not operate on it.
* @param w image buffer width.
* @param h image buffer height.
* @param channels number of channels in the image (3 or 4 - currently)
*/
void BMF_DrawStringBuf(BMF_Font* font, char *str, int posx, int posy, float *col, unsigned char *buf, float *fbuf, int w, int h);
void BMF_DrawStringBuf(BMF_Font* font, char *str, int posx, int posy, float *col, unsigned char *buf, float *fbuf, int w, int h, int channels);
#ifdef __cplusplus

@ -180,7 +180,7 @@ void BMF_DrawStringTexture(BMF_Font* font, char *string, float x, float y, float
((BMF_BitmapFont*)font)->DrawStringTexture(string, x, y, z);
}
void BMF_DrawStringBuf(BMF_Font* font, char *str, int posx, int posy, float *col, unsigned char *buf, float *fbuf, int w, int h) {
void BMF_DrawStringBuf(BMF_Font* font, char *str, int posx, int posy, float *col, unsigned char *buf, float *fbuf, int w, int h, int channels) {
if (!font) return;
((BMF_BitmapFont*)font)->DrawStringBuf(str, posx, posy, col, buf, fbuf, w, h);
((BMF_BitmapFont*)font)->DrawStringBuf(str, posx, posy, col, buf, fbuf, w, h, channels);
}

@ -241,7 +241,7 @@ void BMF_BitmapFont::DrawStringTexture(char *str, float x, float y, float z)
}
#define FTOCHAR(val) val<=0.0f?0: (val>=1.0f?255: (char)(255.0f*val))
void BMF_BitmapFont::DrawStringBuf(char *str, int posx, int posy, float *col, unsigned char *buf, float *fbuf, int w, int h)
void BMF_BitmapFont::DrawStringBuf(char *str, int posx, int posy, float *col, unsigned char *buf, float *fbuf, int w, int h, int channels)
{
int x, y;
@ -277,7 +277,9 @@ void BMF_BitmapFont::DrawStringBuf(char *str, int posx, int posy, float *col, un
pixel[0] = colch[0];
pixel[1] = colch[1];
pixel[2] = colch[2];
pixel[4] = 1; /*colch[3];*/
if (channels==4) {
pixel[4] = 1; /*colch[3];*/
}
}
}
@ -310,7 +312,9 @@ void BMF_BitmapFont::DrawStringBuf(char *str, int posx, int posy, float *col, un
pixel[0] = col[0];
pixel[1] = col[1];
pixel[2] = col[2];
pixel[3] = 1; /*col[3];*/
if (channels==4) {
pixel[3] = 1; /*col[3];*/
}
}
}
}

@ -130,8 +130,9 @@ public:
* @param fbuf float image buffer, when NULL to not operate on it.
* @param w image buffer width.
* @param h image buffer height.
* @param channels number of channels in the image (3 or 4 - currently)
*/
void DrawStringBuf(char *str, int posx, int posy, float *col, unsigned char *buf, float *fbuf, int w, int h);
void DrawStringBuf(char *str, int posx, int posy, float *col, unsigned char *buf, float *fbuf, int w, int h, int channels);
protected:
/** Pointer to the font data. */

@ -31,7 +31,7 @@
include nan_definitions.mk
export VERSION := $(shell cat VERSION)
export VERSION := $(shell getversion.py)
BLENDNAME=blender-$(VERSION)-$(CONFIG_GUESS)-py$(NAN_PYTHON_VERSION)$(TYPE)
export DISTDIR=$(NAN_OBJDIR)/$(BLENDNAME)

55
release/getversion.py Executable file

@ -0,0 +1,55 @@
#!/usr/bin/env python
# ***** BEGIN GPL LICENSE BLOCK *****
#
# 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 2
# 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, write to the Free Software Foundation,
# Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
#
# The Original Code is Copyright (C) 2008 by the Blender Foundation
# All rights reserved.
#
# The Original Code is: all of this file.
#
# Contributor(s): none yet.
#
import sys, os, re
nanblenderhome = os.getenv("NANBLENDERHOME");
if nanblenderhome == None:
nanblenderhome = os.path.dirname(os.path.abspath(sys.argv[0]))+"/.."
config = nanblenderhome+"/source/blender/blenkernel/BKE_blender.h"
infile = open(config)
major = None
minor = None
for line in infile.readlines():
m = re.search("#define BLENDER_VERSION\s+(\d+)", line)
if m:
major = m.group(1)
m = re.search("#define BLENDER_SUBVERSION\s+(\d+)", line)
if m:
minor = m.group(1)
if minor and major:
major = float(major) / 100.0
break
infile.close()
if minor and major:
print str(major)+"."+minor
else:
print "unknownversion"

@ -234,6 +234,19 @@ Tooltip: 'Export to M3G'
#
# * Modul shutil is not needed any longer. Exporter has its own copy_file.
# (realized and inspired by ideasman_42 and Martin Neumann)
#
# History 0.8
#
# * Blender works with SpotAngles 1..180 but M3G works only with 0..90
# M3G use the 'half angle' (cut off angle) (Thanks to Martin Storsjö)
#
# * Error fixed: Texture coordinates was not calculated correct.
# (Thanks to Milan Piskla, Vlad, Max Gilead, Regis Cosnier ...)
#
# * New options in GUI:
# M3G Version 2.0 : Will export M3G files Vers. 2.0 in future
# Game Physics: Adds Game Physics infos for NOPE API
#
# --------------------------------------------------------------------------#
# TODO: Export only selected mesh
# TODO: Optimize Bones <--> Vertex Group mapping
@ -1213,7 +1226,7 @@ class M3GVertexArray(M3GObject3D):
# Reverse t coordinate because M3G uses a different 2D coordinate system than Blender.
if self.uvmapping:
for i in range(0,len(self.components),2):
self.components[i]= int(self.components[i]*(-1))
self.components[i+1]= int(self.components[i+1]*(-1)) #Error in Version 0.7
for i in range(len(self.components)):
if abs(self.components[i])>maxValue:raise Exception( i+". element too great/small!")
@ -1284,7 +1297,7 @@ class M3GVertexArray(M3GObject3D):
self.blenderIndexes[key]=index
#print"blenderIndexes",self.blenderIndexes
else:
# print "VertexArray.append: element=",element
print "VertexArray.append: element=",element
self.components.append(element)
class M3GVertexBuffer(M3GObject3D):
@ -2001,7 +2014,7 @@ class M3GTranslator:
self.scene = Blender.Scene.GetCurrent()
self.world = self.translateWorld(self.scene)
for obj in self.scene.objects:
for obj in self.scene.objects :
if obj.getType()=='Camera': # older Version: isinstance(obj.getData(),Types.CameraType)
self.translateCamera(obj)
elif obj.getType()=='Mesh':
@ -2176,7 +2189,7 @@ class M3GTranslator:
if mOptions.createAmbientLight & mOptions.lightingEnabled:
lLight = M3GLight()
lLight.mode = lLight.modes['AMBIENT']
lLight.color = self.translateRGB(AllWorlds[0].getAmb())
lLight.color = self.translateRGB(blWorld.getAmb())
self.nodes.append(lLight)
#TODO: Set background picture from world
@ -2550,7 +2563,7 @@ class M3GTranslator:
mLight.intensity = lamp.energy
#SpotAngle, SpotExponent (SPOT)
if lampType == Lamp.Types.Spot:
mLight.spotAngle = lamp.spotSize
mLight.spotAngle = lamp.spotSize/2
mLight.spotExponent = lamp.spotBlend
self.translateToNode(obj,mLight)
@ -2945,6 +2958,8 @@ class OptionMgr:
self.perspectiveCorrection = rdict['perspectiveCorrection']
self.smoothShading = rdict['smoothShading']
self.exportAsJava = rdict['exportAsJava']
self.exportVersion2 = rdict['exportVersion2']
self.exportGamePhysics = rdict['exportGamePhysics']
except: self.save() # if data isn't valid, rewrite it
@ -2958,6 +2973,8 @@ class OptionMgr:
self.perspectiveCorrection = False
self.smoothShading = True
self.exportAsJava = False
self.exportVersion2 = False
self.exportGamePhysics = False
def save(self):
d = {}
@ -2970,7 +2987,9 @@ class OptionMgr:
d['perspectiveCorrection'] = self.perspectiveCorrection
d['smoothShading'] = self.smoothShading
d['exportAsJava'] = self.exportAsJava
d['exportVersion2'] = self.exportVersion2
d['exportGamePhysics'] = self.exportGamePhysics
Blender.Registry.SetKey('M3GExport', d, True)
@ -2993,6 +3012,8 @@ def gui():
perspectiveCorrection = Draw.Create(mOptions.perspectiveCorrection)
smoothShading = Draw.Create(mOptions.smoothShading)
exportAsJava = Draw.Create(mOptions.exportAsJava)
exportVersion2 = Draw.Create(mOptions.exportVersion2)
exportGamePhysics = Draw.Create(mOptions.exportGamePhysics)
pupBlock = [\
('Texturing'),\
@ -3008,7 +3029,9 @@ def gui():
('Posing'),\
('All Armature Actions', exportAllActions, 'Exports all actions for armatures'),\
('Export'),\
('As Java Source', exportAsJava, 'Exports scene as Java source code')
('As Java Source', exportAsJava, 'Exports scene as Java source code'),\
('M3G Version 2.0', exportVersion2, 'Exports M3G Version 2.0 File'),\
('Game Physics', exportGamePhysics, 'Includes Game Physics infos for NOPE in export')
]
# Only execute if use didn't quit (ESC).
@ -3022,6 +3045,8 @@ def gui():
mOptions.perspectiveCorrection = perspectiveCorrection.val
mOptions.smoothShading = smoothShading.val
mOptions.exportAsJava = exportAsJava.val
mOptions.exportVersion2 = exportVersion2.val
mOptions.exportGamePhysics = exportGamePhysics.val
mOptions.save()
if mOptions.exportAsJava:

File diff suppressed because it is too large Load Diff

@ -162,8 +162,10 @@ class VRML2Export:
##########################################################
def writeHeader(self):
bfile = sys.expandpath(Blender.Get('filename'))
#bfile = sys.expandpath( Blender.Get('filename') ).replace('<', '&lt').replace('>', '&gt')
bfile = self.filename.replace('<', '&lt').replace('>', '&gt') # use outfile name
self.file.write("<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n")
print "fooe"
self.file.write("<!DOCTYPE X3D PUBLIC \"ISO//Web3D//DTD X3D 3.0//EN\" \"http://www.web3d.org/specifications/x3d-3.0.dtd\">\n")
self.file.write("<X3D version=\"3.0\" profile=\"Immersive\" xmlns:xsd=\"http://www.w3.org/2001/XMLSchema-instance\" xsd:noNamespaceSchemaLocation=\"http://www.web3d.org/specifications/x3d-3.0.xsd\">\n")
self.file.write("<head>\n")
@ -256,7 +258,7 @@ class VRML2Export:
headlight = "FALSE"
self.file.write("<NavigationInfo headlight=\"%s\" " % headlight)
self.file.write("visibilityLimit=\"%s\" " % (round(vislimit,self.cp)))
self.file.write("type=\"EXAMINE, ANY\" avatarSize=\"0.25, 1.75, 0.75\" />\n\n")
self.file.write("type=\"EXAMINE\", \"ANY\" avatarSize=\"0.25, 1.75, 0.75\" />\n\n")
def writeSpotLight(self, ob, lamp):
safeName = self.cleanStr(ob.name)
@ -404,7 +406,7 @@ class VRML2Export:
self.writeIndented("<Appearance>\n", 1)
# right now this script can only handle a single material per mesh.
if len(maters) >= 1:
mat=Blender.Material.Get(maters[0].name)
mat=maters[0]
matFlags = mat.getMode()
if not matFlags & Blender.Material.Modes['TEXFACE']:
self.writeMaterial(mat, self.cleanStr(maters[0].name,''))
@ -452,6 +454,7 @@ class VRML2Export:
for face in mesh.faces:
if face.smooth:
issmooth=1
break
if issmooth==1 and self.wire == 0:
creaseAngle=(mesh.getMaxSmoothAngle())*(math.pi/180.0)
self.file.write("creaseAngle=\"%s\" " % (round(creaseAngle,self.cp)))

@ -175,6 +175,10 @@ ifeq ($(WITH_DDS), true)
COMLIB += $(OCGDIR)/blender/imbuf/dds/$(DEBUG_DIR)libdds.a
endif
ifeq ($(WITH_BINRELOC), true)
COMLIB += $(OCGDIR)/extern/binreloc/$(DEBUG_DIR)libbinreloc.a
endif
ifeq ($(WITH_FREETYPE2), true)
COMLIB += $(OCGDIR)/blender/ftfont/$(DEBUG_DIR)libftfont.a
ifeq ($(OS), windows)

@ -60,6 +60,11 @@ extern "C" {
*/
void free_pose_channels(struct bPose *pose);
/**
* Removes and deallocates all data from a pose, and also frees the pose.
*/
void free_pose(struct bPose *pose);
/**
* Allocate a new pose on the heap, and copy the src pose and it's channels
* into the new pose. *dst is set to the newly allocated structure, and assumed to be NULL.

@ -44,7 +44,7 @@ struct ListBase;
struct MemFile;
#define BLENDER_VERSION 245
#define BLENDER_SUBVERSION 12
#define BLENDER_SUBVERSION 13
#define BLENDER_MINVERSION 240
#define BLENDER_MINSUBVERSION 0

@ -45,7 +45,7 @@ void unlink_group(struct Group *group);
struct Group *add_group(char *name);
void add_to_group(struct Group *group, struct Object *ob);
void rem_from_group(struct Group *group, struct Object *ob);
struct Group *find_group(struct Object *ob);
struct Group *find_group(struct Object *ob, struct Group *group);
int object_in_group(struct Object *ob, struct Group *group);
void group_tag_recalc(struct Group *group);

@ -47,7 +47,7 @@ struct anim;
void free_image(struct Image *me);
void BKE_stamp_info(struct ImBuf *ibuf);
void BKE_stamp_buf(unsigned char *rect, float *rectf, int width, int height);
void BKE_stamp_buf(unsigned char *rect, float *rectf, int width, int height, int channels);
int BKE_write_ibuf(struct ImBuf *ibuf, char *name, int imtype, int subimtype, int quality);
void BKE_makepicstring(char *string, char *base, int frame, int imtype);
void BKE_add_image_extension(char *string, int imtype);

@ -236,21 +236,22 @@ void set_node_shader_lamp_loop(void (*lamp_loop_func)(struct ShadeInput *, str
/* ************** COMPOSITE NODES *************** */
/* output socket defines */
#define RRES_OUT_IMAGE 0
#define RRES_OUT_ALPHA 1
#define RRES_OUT_Z 2
#define RRES_OUT_NORMAL 3
#define RRES_OUT_UV 4
#define RRES_OUT_VEC 5
#define RRES_OUT_RGBA 6
#define RRES_OUT_DIFF 7
#define RRES_OUT_SPEC 8
#define RRES_OUT_SHADOW 9
#define RRES_OUT_AO 10
#define RRES_OUT_REFLECT 11
#define RRES_OUT_REFRACT 12
#define RRES_OUT_RADIO 13
#define RRES_OUT_INDEXOB 14
#define RRES_OUT_IMAGE 0
#define RRES_OUT_ALPHA 1
#define RRES_OUT_Z 2
#define RRES_OUT_NORMAL 3
#define RRES_OUT_UV 4
#define RRES_OUT_VEC 5
#define RRES_OUT_RGBA 6
#define RRES_OUT_DIFF 7
#define RRES_OUT_SPEC 8
#define RRES_OUT_SHADOW 9
#define RRES_OUT_AO 10
#define RRES_OUT_REFLECT 11
#define RRES_OUT_REFRACT 12
#define RRES_OUT_RADIO 13
#define RRES_OUT_INDEXOB 14
#define RRES_OUT_MIST 15
/* note: types are needed to restore callbacks, don't change values */
#define CMP_NODE_VIEWER 201

@ -110,9 +110,10 @@ void solve_tracking (struct Object *ob, float targetmat[][4]);
void object_handle_update(struct Object *ob);
float give_timeoffset(struct Object *ob);
#ifdef __cplusplus
}
#endif
#endif

@ -289,6 +289,8 @@ void psys_particle_on_dm(struct Object *ob, struct DerivedMesh *dm, int from, in
void initialize_particle(struct ParticleData *pa, int p, struct Object *ob, struct ParticleSystem *psys, struct ParticleSystemModifierData *psmd);
void reset_particle(struct ParticleData *pa, struct ParticleSystem *psys, struct ParticleSystemModifierData *psmd, struct Object *ob, float dtime, float cfra, float *vg_vel, float *vg_tan, float *vg_rot);
void do_effectors(int pa_no, struct ParticleData *pa, struct ParticleKey *state, struct Object *ob, struct ParticleSystem *psys, float *force_field, float *vel,float framestep, float cfra);
void psys_calc_dmfaces(struct Object *ob, struct DerivedMesh *dm, struct ParticleSystem *psys);
int psys_particle_dm_face_lookup(struct Object *ob, struct DerivedMesh *dm, int index, float *fw, struct LinkNode *node);

@ -31,30 +31,11 @@
#define BKE_SCULPT_H
struct NumInput;
struct RadialControl;
struct Scene;
struct SculptData;
struct SculptSession;
typedef enum PropsetMode {
PropsetNone = 0,
PropsetSize,
PropsetStrength,
PropsetTexRot
} PropsetMode;
typedef struct PropsetData {
PropsetMode mode;
unsigned int tex;
short origloc[2];
float *texdata;
short origsize;
char origstrength;
float origtexrot;
struct NumInput *num;
} PropsetData;
typedef struct SculptSession {
struct ProjVert *projverts;
@ -76,7 +57,7 @@ typedef struct SculptSession {
/* Used to cache the render of the active texture */
unsigned int texcache_w, texcache_h, *texcache;
struct PropsetData *propset;
struct RadialControl *radialcontrol;
/* For rotating around a pivot point */
vec3f pivot;

@ -178,7 +178,11 @@ void free_action (bAction *act)
if (act->chanbase.first)
BLI_freelistN(&act->chanbase);
/* Free pose-references */
/* Free groups */
if (act->groups.first)
BLI_freelistN(&act->groups);
/* Free pose-references (aka local markers) */
if (act->markers.first)
BLI_freelistN(&act->markers);
}
@ -187,19 +191,37 @@ bAction *copy_action (bAction *src)
{
bAction *dst = NULL;
bActionChannel *dchan, *schan;
bActionGroup *dgrp, *sgrp;
if (!src) return NULL;
dst= copy_libblock(src);
duplicatelist(&(dst->chanbase), &(src->chanbase));
duplicatelist(&(dst->groups), &(src->groups));
duplicatelist(&(dst->markers), &(src->markers));
for (dchan=dst->chanbase.first, schan=src->chanbase.first; dchan; dchan=dchan->next, schan=schan->next){
for (dchan=dst->chanbase.first, schan=src->chanbase.first; dchan; dchan=dchan->next, schan=schan->next) {
for (dgrp=dst->groups.first, sgrp=src->groups.first; dgrp && sgrp; dgrp=dgrp->next, sgrp=sgrp->next) {
if (dchan->grp == sgrp) {
dchan->grp= dgrp;
if (dgrp->channels.first == schan)
dgrp->channels.first= dchan;
if (dgrp->channels.last == schan)
dgrp->channels.last= dchan;
break;
}
}
dchan->ipo = copy_ipo(dchan->ipo);
copy_constraint_channels(&dchan->constraintChannels, &schan->constraintChannels);
}
dst->id.flag |= LIB_FAKEUSER;
dst->id.us++;
return dst;
}
@ -290,7 +312,7 @@ void free_pose_channels(bPose *pose)
{
bPoseChannel *pchan;
if (pose->chanbase.first){
if (pose->chanbase.first) {
for (pchan = pose->chanbase.first; pchan; pchan=pchan->next){
if(pchan->path)
MEM_freeN(pchan->path);
@ -300,6 +322,21 @@ void free_pose_channels(bPose *pose)
}
}
void free_pose(bPose *pose)
{
if (pose) {
/* free pose-channels */
free_pose_channels(pose);
/* free pose-groups */
if (pose->agroups.first)
BLI_freelistN(&pose->agroups);
/* free pose */
MEM_freeN(pose);
}
}
static void copy_pose_channel_data(bPoseChannel *pchan, const bPoseChannel *chan)
{
bConstraint *pcon, *con;
@ -393,7 +430,7 @@ bActionChannel *get_action_channel(bAction *act, const char *name)
if (!act || !name)
return NULL;
for (chan = act->chanbase.first; chan; chan=chan->next){
for (chan = act->chanbase.first; chan; chan=chan->next) {
if (!strcmp (chan->name, name))
return chan;
}
@ -401,18 +438,16 @@ bActionChannel *get_action_channel(bAction *act, const char *name)
return NULL;
}
/* returns existing channel, or adds new one. In latter case it doesnt activate it, context is required for that*/
/* returns existing channel, or adds new one. In latter case it doesnt activate it, context is required for that */
bActionChannel *verify_action_channel(bAction *act, const char *name)
{
bActionChannel *chan;
chan= get_action_channel(act, name);
if(chan==NULL) {
if (!chan) {
chan = MEM_callocN (sizeof(bActionChannel), "actionChannel");
strncpy (chan->name, name, 31);
BLI_addtail (&act->chanbase, chan);
}
if (chan == NULL) {
chan = MEM_callocN (sizeof(bActionChannel), "actionChannel");
strncpy(chan->name, name, 31);
BLI_addtail(&act->chanbase, chan);
}
return chan;
}
@ -1318,10 +1353,8 @@ static void do_nla(Object *ob, int blocktype)
}
/* free */
if (tpose){
free_pose_channels(tpose);
MEM_freeN(tpose);
}
if (tpose)
free_pose(tpose);
if(chanbase.first)
BLI_freelistN(&chanbase);
}

@ -65,6 +65,7 @@
#include "BKE_key.h"
#include "BKE_lattice.h"
#include "BKE_main.h"
#include "BKE_mesh.h"
#include "BKE_object.h"
#include "BKE_particle.h"
#include "BKE_utildefines.h"
@ -423,6 +424,7 @@ static void vertex_dupli__mapFunc(void *userData, int index, float *co, float *n
static void vertex_duplilist(ListBase *lb, ID *id, Object *par, float par_space_mat[][4], int level)
{
Object *ob, *ob_iter;
Mesh *me;
Base *base = NULL;
float vec[3], no[3], pmat[4][4];
int lay, totvert, a, oblay;
@ -431,23 +433,22 @@ static void vertex_duplilist(ListBase *lb, ID *id, Object *par, float par_space_
Scene *sce = NULL;
Group *group = NULL;
GroupObject * go = NULL;
CustomDataMask dataMask = CD_MASK_BAREMESH;
Mat4CpyMat4(pmat, par->obmat);
/* simple preventing of too deep nested groups */
if(level>MAX_DUPLI_RECUR) return;
if(G.rendering)
dataMask |= CD_MASK_ORCO;
if(par==G.obedit)
dm= editmesh_get_derived_cage(dataMask);
dm= editmesh_get_derived_cage(CD_MASK_BAREMESH);
else
dm= mesh_get_derived_deform(par, dataMask);
dm= mesh_get_derived_deform(par, CD_MASK_BAREMESH);
if(G.rendering)
vdd.orco= dm->getVertDataArray(dm, CD_ORCO);
if(G.rendering) {
me= par->data;
vdd.orco= (float(*)[3])get_mesh_orco_verts(par);
transform_mesh_orco_verts(me, vdd.orco, me->totvert, 0);
}
else
vdd.orco= NULL;
@ -521,6 +522,8 @@ static void vertex_duplilist(ListBase *lb, ID *id, Object *par, float par_space_
else go= go->next; /* group loop */
}
if(vdd.orco)
MEM_freeN(vdd.orco);
dm->release(dm);
}
@ -534,25 +537,21 @@ static void face_duplilist(ListBase *lb, ID *id, Object *par, float par_space_ma
MTFace *mtface;
MFace *mface;
MVert *mvert;
float pmat[4][4], imat[3][3], (*orco)[3], w;
float pmat[4][4], imat[3][3], (*orco)[3] = NULL, w;
int lay, oblay, totface, a;
Scene *sce = NULL;
Group *group = NULL;
GroupObject *go = NULL;
CustomDataMask dataMask = CD_MASK_BAREMESH;
float ob__obmat[4][4]; /* needed for groups where the object matrix needs to be modified */
/* simple preventing of too deep nested groups */
if(level>MAX_DUPLI_RECUR) return;
if(G.rendering)
dataMask |= CD_MASK_ORCO;
Mat4CpyMat4(pmat, par->obmat);
if(par==G.obedit) {
int totvert;
dm= editmesh_get_derived_cage(dataMask);
dm= editmesh_get_derived_cage(CD_MASK_BAREMESH);
totface= dm->getNumFaces(dm);
mface= MEM_mallocN(sizeof(MFace)*totface, "mface temp");
@ -562,7 +561,7 @@ static void face_duplilist(ListBase *lb, ID *id, Object *par, float par_space_ma
dm->copyVertArray(dm, mvert);
}
else {
dm = mesh_get_derived_deform(par, dataMask);
dm = mesh_get_derived_deform(par, CD_MASK_BAREMESH);
totface= dm->getNumFaces(dm);
mface= dm->getFaceArray(dm);
@ -571,7 +570,9 @@ static void face_duplilist(ListBase *lb, ID *id, Object *par, float par_space_ma
if(G.rendering) {
me= (Mesh*)par->data;
orco= dm->getVertDataArray(dm, CD_ORCO);
orco= (float(*)[3])get_mesh_orco_verts(par);
transform_mesh_orco_verts(me, orco, me->totvert, 0);
mtface= me->mtface;
}
else {
@ -711,6 +712,9 @@ static void face_duplilist(ListBase *lb, ID *id, Object *par, float par_space_ma
MEM_freeN(mface);
MEM_freeN(mvert);
}
if(orco)
MEM_freeN(orco);
dm->release(dm);
}

@ -308,7 +308,6 @@ static void clean_paths(Main *main)
}
BLI_clean(scene->r.backbuf);
BLI_clean(scene->r.pic);
BLI_clean(scene->r.ftype);
scene= scene->id.next;
}

@ -31,6 +31,7 @@
*/
#include <stdio.h>
#include <stddef.h>
#include <string.h>
#include <math.h>
@ -226,55 +227,7 @@ void do_constraint_channels (ListBase *conbase, ListBase *chanbase, float ctime,
/* Find the first available, non-duplicate name for a given constraint */
void unique_constraint_name (bConstraint *con, ListBase *list)
{
bConstraint *curcon;
char tempname[64];
int number = 1, exists = 0;
char *dot;
/* See if we are given an empty string */
if (con->name[0] == '\0') {
/* give it default name first */
strcpy(con->name, "Const");
}
/* See if we even need to do this */
if (list == NULL)
return;
for (curcon = list->first; curcon; curcon=curcon->next) {
if (curcon != con) {
if (!strcmp(curcon->name, con->name)) {
exists = 1;
break;
}
}
}
if (exists == 0)
return;
/* Strip off the suffix */
dot = strchr(con->name, '.');
if (dot)
*dot=0;
for (number = 1; number <= 999; number++) {
sprintf(tempname, "%s.%03d", con->name, number);
exists = 0;
for (curcon=list->first; curcon; curcon=curcon->next) {
if (con != curcon) {
if (strcmp(curcon->name, tempname)==0) {
exists = 1;
break;
}
}
}
if (exists == 0) {
strcpy(con->name, tempname);
return;
}
}
BLI_uniquename(list, con, "Const", offsetof(bConstraint, name), 32);
}
/* ----------------- Evaluation Loop Preparation --------------- */
@ -2036,8 +1989,7 @@ static void actcon_get_tarmat (bConstraint *con, bConstraintOb *cob, bConstraint
Mat4CpyMat4(ct->matrix, tchan->chan_mat);
/* Clean up */
free_pose_channels(pose);
MEM_freeN(pose);
free_pose(pose);
}
else if (cob->type == CONSTRAINT_OBTYPE_OBJECT) {
/* evaluate using workob */

@ -2064,8 +2064,8 @@ void DAG_object_update_flags(Scene *sce, Object *ob, unsigned int lay)
/* object not in scene? then handle group exception. needs to be dagged once too */
if(node==NULL) {
Group *group= find_group(ob);
if(group) {
Group *group= NULL;
while( (group = find_group(ob, group)) ) {
GroupObject *go;
/* primitive; tag all... this call helps building groups for particles */
for(go= group->gobject.first; go; go= go->next)

@ -1552,14 +1552,14 @@ static pMatrixCache *cache_object_matrices(Object *ob, int start, int end)
/* object can be linked in group... stupid exception */
if(NULL==object_in_scene(ob, G.scene))
group= find_group(ob);
group= find_group(ob, NULL); /* TODO - dont just use the first group! - Campbell */
mcache= mc= MEM_mallocN( (end-start+1)*sizeof(pMatrixCache), "ob matrix cache");
framelenold= G.scene->r.framelen;
G.scene->r.framelen= 1.0f;
cfrao= G.scene->r.cfra;
sfo= ob->sf;
sfo= ob->sf; /* warning, dont use sfo, value should be from give_timeoffset if used for anything */
ob->sf= 0.0f;
/* clear storage, copy recalc tag (bad loop) */

@ -164,9 +164,12 @@ int object_in_group(Object *ob, Group *group)
return 0;
}
Group *find_group(Object *ob)
Group *find_group(Object *ob, Group *group)
{
Group *group= G.main->group.first;
if (group)
group= group->id.next;
else
group= G.main->group.first;
while(group) {
if(object_in_group(ob, group))
@ -238,12 +241,12 @@ void group_handle_recalc_and_update(Object *parent, Group *group)
GroupObject *go;
/* if animated group... */
if(parent->sf != 0.0f || parent->nlastrips.first) {
if(give_timeoffset(parent) != 0.0f || parent->nlastrips.first) {
int cfrao;
/* switch to local time */
cfrao= G.scene->r.cfra;
G.scene->r.cfra -= (int)parent->sf;
G.scene->r.cfra -= (int)give_timeoffset(parent);
/* we need a DAG per group... */
for(go= group->gobject.first; go; go= go->next) {

@ -969,7 +969,7 @@ static void stampdata(StampData *stamp_data, int do_prefix)
}
}
void BKE_stamp_buf(unsigned char *rect, float *rectf, int width, int height)
void BKE_stamp_buf(unsigned char *rect, float *rectf, int width, int height, int channels)
{
struct StampData stamp_data;
@ -1017,7 +1017,7 @@ void BKE_stamp_buf(unsigned char *rect, float *rectf, int width, int height)
/* Top left corner */
text_width = BMF_GetStringWidth(font, stamp_data.file);
buf_rectfill_area(rect, rectf, width, height, G.scene->r.bg_stamp, x-1, y-1, x+text_width+text_pad+1, y+font_height+1);
BMF_DrawStringBuf(font, stamp_data.file, x+(text_pad/2), y, G.scene->r.fg_stamp, rect, rectf, width, height);
BMF_DrawStringBuf(font, stamp_data.file, x+(text_pad/2), y, G.scene->r.fg_stamp, rect, rectf, width, height, channels);
y -= font_height+2; /* Top and bottom 1 pix padding each */
}
@ -1025,7 +1025,7 @@ void BKE_stamp_buf(unsigned char *rect, float *rectf, int width, int height)
if (stamp_data.note[0]) {
text_width = BMF_GetStringWidth(font, stamp_data.note);
buf_rectfill_area(rect, rectf, width, height, G.scene->r.bg_stamp, x-1, y-1, x+text_width+text_pad+1, y+font_height+1);
BMF_DrawStringBuf(font, stamp_data.note, x+(text_pad/2), y, G.scene->r.fg_stamp, rect, rectf, width, height);
BMF_DrawStringBuf(font, stamp_data.note, x+(text_pad/2), y, G.scene->r.fg_stamp, rect, rectf, width, height, channels);
y -= font_height+2; /* Top and bottom 1 pix padding each */
}
@ -1033,7 +1033,7 @@ void BKE_stamp_buf(unsigned char *rect, float *rectf, int width, int height)
if (stamp_data.date[0]) {
text_width = BMF_GetStringWidth(font, stamp_data.date);
buf_rectfill_area(rect, rectf, width, height, G.scene->r.bg_stamp, x-1, y-1, x+text_width+text_pad+1, y+font_height+1);
BMF_DrawStringBuf(font, stamp_data.date, x+(text_pad/2), y, G.scene->r.fg_stamp, rect, rectf, width, height);
BMF_DrawStringBuf(font, stamp_data.date, x+(text_pad/2), y, G.scene->r.fg_stamp, rect, rectf, width, height, channels);
}
/* Bottom left corner, leaving space for timing */
@ -1042,7 +1042,7 @@ void BKE_stamp_buf(unsigned char *rect, float *rectf, int width, int height)
y = font_height+2+1; /* 2 for padding in TIME|FRAME fields below and 1 for padding in this one */
text_width = BMF_GetStringWidth(font, stamp_data.marker);
buf_rectfill_area(rect, rectf, width, height, G.scene->r.bg_stamp, x-1, y-1, x+text_width+text_pad+1, y+font_height+1);
BMF_DrawStringBuf(font, stamp_data.marker, x+(text_pad/2), y, G.scene->r.fg_stamp, rect, rectf, width, height);
BMF_DrawStringBuf(font, stamp_data.marker, x+(text_pad/2), y, G.scene->r.fg_stamp, rect, rectf, width, height, channels);
}
/* Left bottom corner */
@ -1051,7 +1051,7 @@ void BKE_stamp_buf(unsigned char *rect, float *rectf, int width, int height)
y = 1;
text_width = BMF_GetStringWidth(font, stamp_data.time);
buf_rectfill_area(rect, rectf, width, height, G.scene->r.bg_stamp, x-1, y-1, x+text_width+text_pad+1, y+font_height+1);
BMF_DrawStringBuf(font, stamp_data.time, x+(text_pad/2), y, G.scene->r.fg_stamp, rect, rectf, width, height);
BMF_DrawStringBuf(font, stamp_data.time, x+(text_pad/2), y, G.scene->r.fg_stamp, rect, rectf, width, height, channels);
x += text_width+text_pad+2; /* Both sides have 1 pix additional padding each */
}
@ -1061,7 +1061,7 @@ void BKE_stamp_buf(unsigned char *rect, float *rectf, int width, int height)
if (!stamp_data.time[0]) x = 1;
y = 1;
buf_rectfill_area(rect, rectf, width, height, G.scene->r.bg_stamp, x-1, y-1, x+text_width+text_pad+1, y+font_height+1);
BMF_DrawStringBuf(font, stamp_data.frame, x+(text_pad/2), y, G.scene->r.fg_stamp, rect, rectf, width, height);
BMF_DrawStringBuf(font, stamp_data.frame, x+(text_pad/2), y, G.scene->r.fg_stamp, rect, rectf, width, height, channels);
}
if (stamp_data.camera[0]) {
@ -1070,7 +1070,7 @@ void BKE_stamp_buf(unsigned char *rect, float *rectf, int width, int height)
x = (width/2) - (BMF_GetStringWidth(font, stamp_data.camera)/2);
y = 1;
buf_rectfill_area(rect, rectf, width, height, G.scene->r.bg_stamp, x-1, y-1, x+text_width+text_pad+1, y+font_height+1);
BMF_DrawStringBuf(font, stamp_data.camera, x+(text_pad/2), y, G.scene->r.fg_stamp, rect, rectf, width, height);
BMF_DrawStringBuf(font, stamp_data.camera, x+(text_pad/2), y, G.scene->r.fg_stamp, rect, rectf, width, height, channels);
}
if (stamp_data.scene[0]) {
@ -1079,7 +1079,7 @@ void BKE_stamp_buf(unsigned char *rect, float *rectf, int width, int height)
x = width - (text_width+1+text_pad);
y = 1;
buf_rectfill_area(rect, rectf, width, height, G.scene->r.bg_stamp, x-1, y-1, x+text_width+text_pad+1, y+font_height+1);
BMF_DrawStringBuf(font, stamp_data.scene, x+(text_pad/2), y, G.scene->r.fg_stamp, rect, rectf, width, height);
BMF_DrawStringBuf(font, stamp_data.scene, x+(text_pad/2), y, G.scene->r.fg_stamp, rect, rectf, width, height, channels);
}
if (stamp_data.strip[0]) {
@ -1088,7 +1088,7 @@ void BKE_stamp_buf(unsigned char *rect, float *rectf, int width, int height)
x = width - (text_width+1+text_pad);
y = height - font_height - 1;
buf_rectfill_area(rect, rectf, width, height, G.scene->r.bg_stamp, x-1, y-1, x+text_width+text_pad+1, y+font_height+1);
BMF_DrawStringBuf(font, stamp_data.strip, x+(text_pad/2), y, G.scene->r.fg_stamp, rect, rectf, width, height);
BMF_DrawStringBuf(font, stamp_data.strip, x+(text_pad/2), y, G.scene->r.fg_stamp, rect, rectf, width, height, channels);
}
}

@ -2727,9 +2727,9 @@ static void displaceModifier_foreachIDLink(ModifierData *md, Object *ob,
{
DisplaceModifierData *dmd = (DisplaceModifierData*) md;
walk(userData, ob, &dmd->texture);
walk(userData, ob, (ID **)&dmd->texture);
displaceModifier_foreachObjectLink(md, ob, (ObjectWalkFunc) walk, userData);
displaceModifier_foreachObjectLink(md, ob, (ObjectWalkFunc)walk, userData);
}
static int displaceModifier_isDisabled(ModifierData *md)

@ -2211,6 +2211,8 @@ static void force_hidden_passes(bNode *node, int passflag)
if(!(passflag & SCE_PASS_RADIO)) sock->flag |= SOCK_UNAVAIL;
sock= BLI_findlink(&node->outputs, RRES_OUT_INDEXOB);
if(!(passflag & SCE_PASS_INDEXOB)) sock->flag |= SOCK_UNAVAIL;
sock= BLI_findlink(&node->outputs, RRES_OUT_MIST);
if(!(passflag & SCE_PASS_MIST)) sock->flag |= SOCK_UNAVAIL;
}

@ -229,10 +229,8 @@ void free_object(Object *ob)
if(ob->dup_group) ob->dup_group->id.us--;
if(ob->defbase.first)
BLI_freelistN(&ob->defbase);
if(ob->pose) {
free_pose_channels(ob->pose);
MEM_freeN(ob->pose);
}
if(ob->pose)
free_pose(ob->pose);
free_effects(&ob->effect);
free_properties(&ob->prop);
object_free_modifiers(ob);
@ -1367,7 +1365,7 @@ float bsystem_time(Object *ob, float cfra, float ofs)
/* ofset frames */
if ((ob->ipoflag & OB_OFFS_PARENT) && (ob->partype & PARSLOW)==0)
cfra-= ob->sf;
cfra-= give_timeoffset(ob);
}
cfra-= ofs;
@ -1438,7 +1436,7 @@ static void ob_parcurve(Object *ob, Object *par, float mat[][4])
{
Curve *cu;
float q[4], vec[4], dir[3], *quat, x1, ctime;
float timeoffs= 0.0;
float timeoffs = 0.0, sf_orig = 0.0;
Mat4One(mat);
@ -1449,7 +1447,8 @@ static void ob_parcurve(Object *ob, Object *par, float mat[][4])
/* exception, timeoffset is regarded as distance offset */
if(cu->flag & CU_OFFS_PATHDIST) {
SWAP(float, timeoffs, ob->sf);
timeoffs = give_timeoffset(ob);
SWAP(float, sf_orig, ob->sf);
}
/* catch exceptions: feature for nla stride editing */
@ -1466,7 +1465,7 @@ static void ob_parcurve(Object *ob, Object *par, float mat[][4])
}
}
else {
ctime= G.scene->r.cfra - ob->sf;
ctime= G.scene->r.cfra - give_timeoffset(ob);
ctime /= cu->pathlen;
CLAMP(ctime, 0.0, 1.0);
@ -1477,7 +1476,7 @@ static void ob_parcurve(Object *ob, Object *par, float mat[][4])
ctime += timeoffs/cu->path->totdist;
/* restore */
SWAP(float, timeoffs, ob->sf);
SWAP(float, sf_orig, ob->sf);
}
@ -1735,7 +1734,7 @@ void where_is_object_time(Object *ob, float ctime)
if(ob->parent) {
Object *par= ob->parent;
if(ob->ipoflag & OB_OFFS_PARENT) ctime-= ob->sf;
if(ob->ipoflag & OB_OFFS_PARENT) ctime-= give_timeoffset(ob);
/* hurms, code below conflicts with depgraph... (ton) */
/* and even worse, it gives bad effects for NLA stride too (try ctime != par->ctime, with MBlur) */
@ -1759,7 +1758,7 @@ void where_is_object_time(Object *ob, float ctime)
if(ob->partype & PARSLOW) {
// include framerate
fac1= (1.0f/(1.0f+ fabs(ob->sf)));
fac1= (1.0f/(1.0f+ fabs(give_timeoffset(ob))));
if(fac1>=1.0) return;
fac2= 1.0f-fac1;
@ -1942,7 +1941,7 @@ for a lamp that is the child of another object */
if(ob->partype & PARSLOW) {
fac1= (float)(1.0/(1.0+ fabs(ob->sf)));
fac1= (float)(1.0/(1.0+ fabs(give_timeoffset(ob))));
fac2= 1.0f-fac1;
fp1= ob->obmat[0];
fp2= slowmat[0];
@ -2199,6 +2198,7 @@ void object_handle_update(Object *ob)
if(ob->particlesystem.first) {
ParticleSystem *tpsys, *psys;
DerivedMesh *dm;
psys= ob->particlesystem.first;
while(psys) {
@ -2215,6 +2215,17 @@ void object_handle_update(Object *ob)
else
psys= psys->next;
}
if(G.rendering && ob->transflag & OB_DUPLIPARTS) {
/* this is to make sure we get render level duplis in groups:
* the derivedmesh must be created before init_render_mesh,
* since object_duplilist does dupliparticles before that */
dm = mesh_create_derived_render(ob, CD_MASK_BAREMESH|CD_MASK_MTFACE|CD_MASK_MCOL);
dm->release(dm);
for(psys=ob->particlesystem.first; psys; psys=psys->next)
psys_get_modifier(ob, psys)->flag &= ~eParticleSystemFlag_psys_updated;
}
}
}
@ -2235,3 +2246,11 @@ void object_handle_update(Object *ob)
// printf("set proxy pointer for later group stuff %s\n", ob->id.name);
}
}
float give_timeoffset(Object *ob) {
if ((ob->ipoflag & OB_OFFS_PARENTADD) && ob->parent) {
return ob->sf + give_timeoffset(ob->parent);
} else {
return ob->sf;
}
}

@ -2240,7 +2240,7 @@ void psys_cache_paths(Object *ob, ParticleSystem *psys, float cfra, int editupda
Material *ma;
float birthtime = 0.0, dietime = 0.0;
float t, time, keytime, dfra = 1.0, frs_sec = G.scene->r.frs_sec;
float t, time = 0.0, keytime = 0.0, dfra = 1.0, frs_sec = G.scene->r.frs_sec;
float col[3] = {0.5f, 0.5f, 0.5f};
float prev_tangent[3], hairmat[4][4];
int k,i;
@ -2249,6 +2249,7 @@ void psys_cache_paths(Object *ob, ParticleSystem *psys, float cfra, int editupda
char nosel[4], sel[4];
float sel_col[3];
float nosel_col[3];
float length, vec[3];
/* we don't have anything valid to create paths from so let's quit here */
if((psys->flag & PSYS_HAIR_DONE)==0 && (psys->flag & PSYS_KEYED)==0)
@ -2417,7 +2418,6 @@ void psys_cache_paths(Object *ob, ParticleSystem *psys, float cfra, int editupda
: ((psys->part->flag & PART_HAIR_BSPLINE) ? KEY_BSPLINE : KEY_CARDINAL)
,keys, keytime, &result);
/* the velocity needs to be converted back from cubic interpolation */
if(psys->flag & PSYS_KEYED){
VecMulf(result.vel, frs_sec / dfra);
@ -2425,12 +2425,49 @@ void psys_cache_paths(Object *ob, ParticleSystem *psys, float cfra, int editupda
else if(soft==NULL) { /* softbody and keyed are allready in global space */
Mat4MulVecfl(hairmat, result.co);
}
VECCOPY(ca->co, result.co);
}
/*--modify paths--*/
VecSubf(vec,(cache[i]+1)->co,cache[i]->co);
length = VecLength(vec);
for(k=0, ca=cache[i]; k<=steps; k++, ca++) {
/* apply effectors */
if(edit==0 && k) {
float force[3] = {0.0f,0.0f,0.0f}, vel[3] = {0.0f,0.0f,0.0f};
ParticleKey eff_key;
VECCOPY(eff_key.co,(ca-1)->co);
VECCOPY(eff_key.vel,(ca-1)->vel);
QUATCOPY(eff_key.rot,(ca-1)->rot);
do_effectors(i, pa, &eff_key, ob, psys, force, vel, dfra, cfra);
VecMulf(force, pow((float)k / (float)steps, 100.0f * psys->part->eff_hair) / (float)steps);
VecAddf(force, force, vec);
Normalize(force);
if(k < steps) {
VecSubf(vec, (ca+1)->co, ca->co);
length = VecLength(vec);
}
VECADDFAC(ca->co, (ca-1)->co, force, length);
}
/* apply guide curves to path data */
if(edit==0 && psys->effectors.first && (psys->part->flag & PART_CHILD_GUIDE)==0)
do_guide(&result, i, time, &psys->effectors);
/* apply lattice */
if(psys->lattice && edit==0)
calc_latt_deform(ca->co, 1.0f);
/* figure out rotation */
if(k) {
@ -2439,7 +2476,7 @@ void psys_cache_paths(Object *ob, ParticleSystem *psys, float cfra, int editupda
if(k == 1) {
float *q2;
VECSUB(tangent, result.co, (ca - 1)->co);
VECSUB(tangent, ca->co, (ca - 1)->co);
q2 = vectoquat(tangent, OB_POSX, OB_POSZ);
@ -2449,7 +2486,7 @@ void psys_cache_paths(Object *ob, ParticleSystem *psys, float cfra, int editupda
Normalize(prev_tangent);
}
else {
VECSUB(tangent, result.co, (ca - 1)->co);
VECSUB(tangent, ca->co, (ca - 1)->co);
Normalize(tangent);
angle = saacos(Inpf(tangent, prev_tangent));
@ -2470,8 +2507,9 @@ void psys_cache_paths(Object *ob, ParticleSystem *psys, float cfra, int editupda
}
}
VECCOPY(ca->co, result.co);
/* set velocity */
if(k){
VECSUB(ca->vel, ca->co, (ca-1)->co);
@ -2512,9 +2550,6 @@ void psys_cache_paths(Object *ob, ParticleSystem *psys, float cfra, int editupda
else{
VECCOPY(ca->col, col);
}
if(psys->lattice && edit==0)
calc_latt_deform(ca->co, 1.0f);
}
}
@ -3200,13 +3235,13 @@ void psys_get_particle_on_path(Object *ob, ParticleSystem *psys, int p, Particle
ParticleData *pa;
ChildParticle *cpa;
ParticleTexture ptex;
ParticleKey tstate;
ParticleKey *kkey[2] = {NULL, NULL};
HairKey *hkey[2];
ParticleKey *par=0, keys[4];
float t, real_t, dfra, keytime;
float t, real_t, dfra, keytime, frs_sec = G.scene->r.frs_sec;
float co[3], orco[3];
float imat[4][4], hairmat[4][4], cpa_1st[3];
float hairmat[4][4];
float pa_clump = 0.0, pa_kink = 0.0;
int totparent = 0;
int totpart = psys->totpart;
@ -3239,19 +3274,39 @@ void psys_get_particle_on_path(Object *ob, ParticleSystem *psys, int p, Particle
return;
}
hkey[0] = pa->hair;
hkey[1] = pa->hair + 1;
if(psys->flag & PSYS_KEYED) {
kkey[0] = pa->keys;
kkey[1] = kkey[0] + 1;
real_t = hkey[0]->time + (hkey[0][pa->totkey-1].time - hkey[0]->time) * t;
real_t = kkey[0]->time + t * (kkey[0][pa->totkey-1].time - kkey[0]->time);
}
else {
hkey[0] = pa->hair;
hkey[1] = pa->hair + 1;
while(hkey[1]->time < real_t)
hkey[1]++;
real_t = hkey[0]->time + (hkey[0][pa->totkey-1].time - hkey[0]->time) * t;
}
hkey[0] = hkey[1] - 1;
if(psys->flag & PSYS_KEYED) {
while(kkey[1]->time < real_t) {
kkey[1]++;
}
kkey[0] = kkey[1] - 1;
hair_to_particle(keys + 1, hkey[0]);
hair_to_particle(keys + 2, hkey[1]);
memcpy(keys + 1, kkey[0], sizeof(ParticleKey));
memcpy(keys + 2, kkey[1], sizeof(ParticleKey));
}
else {
while(hkey[1]->time < real_t)
hkey[1]++;
hkey[0] = hkey[1] - 1;
hair_to_particle(keys + 1, hkey[0]);
hair_to_particle(keys + 2, hkey[1]);
}
if((psys->flag & PSYS_KEYED)==0) {
//if(soft){
// if(key[0] != sbel.keys)
// DB_copy_key(&k1,key[0]-1);
@ -3276,6 +3331,7 @@ void psys_get_particle_on_path(Object *ob, ParticleSystem *psys, int p, Particle
hair_to_particle(keys + 3, hkey[1] + 1);
else
hair_to_particle(keys + 3, hkey[1]);
}
//}
//psys_get_particle_on_path(bsys,p,t,bkey,ckey[0]);
@ -3296,24 +3352,38 @@ void psys_get_particle_on_path(Object *ob, ParticleSystem *psys, int p, Particle
keytime = (real_t - keys[1].time) / dfra;
interpolate_particle((psys->part->flag & PART_HAIR_BSPLINE) ? KEY_BSPLINE : KEY_CARDINAL
/* convert velocity to timestep size */
if(psys->flag & PSYS_KEYED){
VecMulf(keys[1].vel, dfra / frs_sec);
VecMulf(keys[2].vel, dfra / frs_sec);
QuatInterpol(state->rot,keys[1].rot,keys[2].rot,keytime);
}
interpolate_particle((psys->flag & PSYS_KEYED) ? -1 /* signal for cubic interpolation */
: ((psys->part->flag & PART_HAIR_BSPLINE) ? KEY_BSPLINE : KEY_CARDINAL)
,keys, keytime, state);
if((pa->flag & PARS_REKEY)==0) {
psys_mat_hair_to_global(ob, psmd->dm, part->from, pa, hairmat);
Mat4MulVecfl(hairmat, state->co);
/* the velocity needs to be converted back from cubic interpolation */
if(psys->flag & PSYS_KEYED){
VecMulf(state->vel, frs_sec / dfra);
}
else {
if((pa->flag & PARS_REKEY)==0) {
psys_mat_hair_to_global(ob, psmd->dm, part->from, pa, hairmat);
Mat4MulVecfl(hairmat, state->co);
if(psys->effectors.first && (part->flag & PART_CHILD_GUIDE)==0) {
do_guide(state, p, state->time, &psys->effectors);
/* TODO: proper velocity handling */
if(psys->effectors.first && (part->flag & PART_CHILD_GUIDE)==0) {
do_guide(state, p, state->time, &psys->effectors);
/* TODO: proper velocity handling */
}
if(psys->lattice && edit==0)
calc_latt_deform(state->co,1.0f);
}
if(psys->lattice && edit==0)
calc_latt_deform(state->co,1.0f);
}
}
else if(totchild){
Mat4Invert(imat,ob->obmat);
//Mat4Invert(imat,ob->obmat);
cpa=psys->child+p-totpart;
@ -3345,19 +3415,9 @@ void psys_get_particle_on_path(Object *ob, ParticleSystem *psys, int p, Particle
psys_particle_on_emitter(ob,psmd,cpa_from,cpa_num,DMCACHE_ISCHILD,cpa->fuv,foffset,co,0,0,0,orco,0);
/* we need to save the actual root position of the child for positioning it accurately to the surface of the emitter */
VECCOPY(cpa_1st,co);
//VECCOPY(cpa_1st,co);
//w=0;
//while(w<4 && cpa->pa[w]>=0){
// pa=psys->particles+cpa->pa[w];
// psys_particle_on_emitter(ob,psmd,part->from,pa->num,pa->fuv,pa->foffset,vec,0,0,0);
// cpa_1st[0] -= cpa->w[w]*vec[0];
// cpa_1st[1] -= cpa->w[w]*vec[1];
// cpa_1st[2] -= cpa->w[w]*vec[2];
// w++;
//}
Mat4MulVecfl(ob->obmat,cpa_1st);
//Mat4MulVecfl(ob->obmat,cpa_1st);
pa=0;
}
@ -3412,7 +3472,7 @@ void psys_get_particle_on_path(Object *ob, ParticleSystem *psys, int p, Particle
w++;
}
/* apply offset for correct positioning */
VECADD(state->co,state->co,cpa_1st);
//VECADD(state->co,state->co,cpa_1st);
}
else{
/* offset the child from the parent position */
@ -3452,19 +3512,18 @@ void psys_get_particle_on_path(Object *ob, ParticleSystem *psys, int p, Particle
if(part->rough_end != 0.0)
do_rough_end(cpa->rand, t, part->rough_end, part->rough_end_shape, state, par);
if(vel){
if(t>=0.001f){
tstate.time=t-0.001f;
psys_get_particle_on_path(ob,psys,p,&tstate,0);
VECSUB(state->vel,state->co,tstate.co);
}
else{
tstate.time=t+0.001f;
psys_get_particle_on_path(ob,psys,p,&tstate,0);
VECSUB(state->vel,tstate.co,state->co);
}
}
//if(vel){
// if(t>=0.001f){
// tstate.time=t-0.001f;
// psys_get_particle_on_path(ob,psys,p,&tstate,0);
// VECSUB(state->vel,state->co,tstate.co);
// }
// else{
// tstate.time=t+0.001f;
// psys_get_particle_on_path(ob,psys,p,&tstate,0);
// VECSUB(state->vel,tstate.co,state->co);
// }
//}
}
}
/* gets particle's state at a time, returns 1 if particle exists and can be seen and 0 if not */
@ -3505,18 +3564,18 @@ int psys_get_particle_state(Object *ob, ParticleSystem *psys, int p, ParticleKey
return 0;
}
//if(bsys->flag & (BSYS_DONE|BSYS_KEYED)){
// if(between){
// //ChildParticle *cpa=psys->child+p-totpart;
// //state->time= (cfra-(part->sta+(part->end-part->sta)*cpa->rand[0]))/(part->lifetime*cpa->rand[1]);
// }
// else
// state->time= (cfra-pa->time)/(pa->dietime-pa->time);//pa->lifetime;
if(psys->flag & PSYS_KEYED){
if(between){
ChildParticle *cpa=psys->child+p-totpart;
state->time= (cfra-(part->sta+(part->end-part->sta)*cpa->rand[0]))/(part->lifetime*cpa->rand[1]);
}
else
state->time= (cfra-pa->time)/(pa->dietime-pa->time);
// psys_get_particle_on_path(ob,psys,p,state,1);
// return 1;
//}
//else{
psys_get_particle_on_path(ob,psys,p,state,1);
return 1;
}
else{
//if(psys->totchild && p>=psys->totpart){
// ChildParticle *cpa=psys->child+p-psys->totpart;
// ParticleKey *key1, skey;
@ -3560,7 +3619,7 @@ int psys_get_particle_state(Object *ob, ParticleSystem *psys, int p, ParticleKey
//}
return 1;
//}
}
}
void psys_get_dupli_texture(Object *ob, ParticleSettings *part, ParticleSystemModifierData *psmd, ParticleData *pa, ChildParticle *cpa, float *uv, float *orco)

@ -2607,7 +2607,7 @@ static void precalc_effectors(Object *ob, ParticleSystem *psys, ParticleSystemMo
/* calculate forces that all effectors apply to a particle*/
static void do_effectors(int pa_no, ParticleData *pa, ParticleKey *state, Object *ob, ParticleSystem *psys, float *force_field, float *vel,float framestep, float cfra)
void do_effectors(int pa_no, ParticleData *pa, ParticleKey *state, Object *ob, ParticleSystem *psys, float *force_field, float *vel,float framestep, float cfra)
{
Object *eob;
ParticleSystem *epsys;
@ -4050,12 +4050,16 @@ static void dynamics_step(Object *ob, ParticleSystem *psys, ParticleSystemModifi
pa->alive=PARS_UNBORN;
}
else{
pa->loop=0;
if(cfra<=pa->time)
pa->alive=PARS_UNBORN;
pa->loop = 0;
if(cfra <= pa->time)
pa->alive = PARS_UNBORN;
/* without dynamics the state is allways known so no need to kill */
else if(ELEM(part->phystype,PART_PHYS_NO,PART_PHYS_KEYED)==0)
pa->alive=PARS_KILLED;
else if(ELEM(part->phystype, PART_PHYS_NO, PART_PHYS_KEYED)){
if(cfra < pa->dietime)
pa->alive = PARS_ALIVE;
}
else
pa->alive = PARS_KILLED;
}
}
@ -4398,7 +4402,9 @@ static void system_step(Object *ob, ParticleSystem *psys, ParticleSystemModifier
return;
}
}
else if(part->phystype != PART_PHYS_NO) { /* cache shouldn't be used for none physics */
else if(ELEM(part->phystype, PART_PHYS_NO, PART_PHYS_KEYED))
; /* cache shouldn't be used for "none" or "keyed" physics */
else {
if(psys->recalc && (psys->flag & PSYS_PROTECT_CACHE) == 0)
clear_particles_from_cache(ob,psys,(int)cfra);
else if(get_particles_from_cache(ob, psys, (int)cfra)) {
@ -4500,9 +4506,12 @@ static void system_step(Object *ob, ParticleSystem *psys, ParticleSystemModifier
dynamics_step(ob,psys,psmd,cfra,vg_vel,vg_tan,vg_rot,vg_size);
psys->recalc = 0;
psys->cfra=cfra;
psys->cfra = cfra;
if(part->type!=PART_HAIR)
if(part->type == PART_HAIR || part->phystype == PART_PHYS_NO
|| (part->phystype == PART_PHYS_KEYED && psys->flag & PSYS_FIRST_KEYED))
; /* cache shouldn't be used for hair or "none" or "first keyed" physics */
else
write_particles_to_cache(ob, psys, cfra);
/* for keyed particles the path is allways known so it can be drawn */

@ -257,7 +257,6 @@ Scene *add_scene(char *name)
strcpy(sce->r.backbuf, "//backbuf");
strcpy(sce->r.pic, U.renderdir);
strcpy(sce->r.ftype, "//ftype");
BLI_init_rctf(&sce->r.safety, 0.1f, 0.9f, 0.1f, 0.9f);
sce->r.osa= 8;
@ -661,13 +660,8 @@ void sculptsession_free(Scene *sce)
if(ss->mats)
MEM_freeN(ss->mats);
if(ss->propset) {
if(ss->propset->texdata)
MEM_freeN(ss->propset->texdata);
if(ss->propset->num)
MEM_freeN(ss->propset->num);
MEM_freeN(ss->propset);
}
if(ss->radialcontrol)
MEM_freeN(ss->radialcontrol);
sculpt_vertexusers_free(ss);
if(ss->texcache)

@ -98,12 +98,12 @@ World *add_world(char *name)
wrld->exp= 0.0f;
wrld->exposure=wrld->range= 1.0f;
wrld->aodist= 5.0;
wrld->aodist= 5.0f;
wrld->aosamp= 5;
wrld->aoenergy= 1.0;
wrld->aobias= 0.05;
wrld->aoenergy= 1.0f;
wrld->aobias= 0.05f;
wrld->ao_samp_method = WO_AOSAMP_HAMMERSLEY;
wrld->ao_approx_error= 0.25f;
wrld->physicsEngine= WOPHY_BULLET;//WOPHY_SUMO; Bullet by default
wrld->preview = NULL;

@ -107,6 +107,7 @@ int BLI_findindex(struct ListBase *listbase, void *vlink);
void BLI_freelistN(struct ListBase *listbase);
void BLI_addtail(struct ListBase *listbase, void *vlink);
void BLI_remlink(struct ListBase *listbase, void *vlink);
void BLI_uniquename(struct ListBase *list, void *vlink, char defname[], short name_offs, short len);
void BLI_newname(char * name, int add);
int BLI_stringdec(char *string, char *kop, char *start, unsigned short *numlen);
void BLI_stringenc(char *string, char *kop, char *start, unsigned short numlen, int pic);
@ -254,7 +255,7 @@ void BLI_free_file_lines(struct LinkNode *lines);
* @param fullname The full path and full name of the executable
* @param name The name of the executable (usually argv[0]) to be checked
*/
void BLI_where_am_i(char *fullname, char *name);
void BLI_where_am_i(char *fullname, const char *name);
/**
* determines the full path to the application bundle on OS X
@ -296,8 +297,8 @@ int BLI_rename(char *from, char *to);
int BLI_gzip(char *from, char *to);
int BLI_delete(char *file, int dir, int recursive);
int BLI_move(char *file, char *to);
int BLI_touch(char *file);
char *BLI_last_slash(char *string);
int BLI_touch(const char *file);
char *BLI_last_slash(const char *string);
/* BLI_rct.c */
/**

@ -19,6 +19,7 @@ if env['WITH_BF_VERSE']:
if env['OURPLATFORM'] == 'linux2':
cflags='-pthread'
incs += ' ../../../extern/binreloc/include'
if env['OURPLATFORM'] in ('win32-vc', 'win32-mingw'):
incs += ' ' + env['BF_PTHREADS_INC']

@ -59,3 +59,6 @@ endif
ifeq ($(WITH_FREETYPE2), true)
CPPFLAGS += -DWITH_FREETYPE2
endif
ifeq ($(OS),linux)
CPPFLAGS += -I$(OCGDIR)/extern/binreloc/include
endif

@ -79,7 +79,7 @@ char *first_slash(char *string) {
else return fbslash;
}
char *BLI_last_slash(char *string) {
char *BLI_last_slash(const char *string) {
char *lfslash, *lbslash;
lfslash= strrchr(string, '/');
@ -140,6 +140,23 @@ int BLI_is_writable(char *filename)
}
}
int BLI_touch(const char *file)
{
FILE *f = fopen(file,"r+b");
if (f != NULL) {
char c = getc(f);
rewind(f);
putc(c,f);
} else {
f = fopen(file,"wb");
}
if (f) {
fclose(f);
return 1;
}
return 0;
}
#ifdef WIN32
static char str[MAXPATHLEN+12];
@ -161,12 +178,6 @@ int BLI_delete(char *file, int dir, int recursive) {
return err;
}
int BLI_touch(char *file) {
callLocalErrorCallBack("Touching files is unsupported on Windows");
return 1;
}
int BLI_move(char *file, char *to) {
int err;
@ -296,17 +307,6 @@ int BLI_delete(char *file, int dir, int recursive)
return -1;
}
int BLI_touch(char *file)
{
if( BLI_exists("/bin/touch") )
sprintf(str, "/bin/touch %s", file);
else
sprintf(str, "/usr/bin/touch %s", file);
return system(str);
}
int BLI_move(char *file, char *to) {
sprintf(str, "/bin/mv -f \"%s\" \"%s\"", file, to);

@ -84,6 +84,10 @@
#include <CoreFoundation/CoreFoundation.h>
#endif
#ifdef __linux__
#include "binreloc.h"
#endif
/* local */
static int add_win32_extension(char *name);
@ -216,6 +220,79 @@ void BLI_newname(char *name, int add)
BLI_stringenc(name, head, tail, digits, pic);
}
/* little helper macro for BLI_uniquename */
#ifndef GIVE_STRADDR
#define GIVE_STRADDR(data, offset) ( ((char *)data) + offset )
#endif
/* Generic function to set a unique name. It is only designed to be used in situations
* where the name is part of the struct, and also that the name is at most 128 chars long.
*
* For places where this is used, see constraint.c for example...
*
* name_offs: should be calculated using offsetof(structname, membername) macro from stddef.h
* len: maximum length of string (to prevent overflows, etc.)
* defname: the name that should be used by default if none is specified already
*/
void BLI_uniquename(ListBase *list, void *vlink, char defname[], short name_offs, short len)
{
Link *link;
char tempname[128];
int number = 1, exists = 0;
char *dot;
/* Make sure length can be handled */
if ((len < 0) || (len > 128))
return;
/* See if we are given an empty string */
if (ELEM(NULL, vlink, defname))
return;
if (GIVE_STRADDR(vlink, name_offs) == '\0') {
/* give it default name first */
BLI_strncpy(GIVE_STRADDR(vlink, name_offs), defname, len);
}
/* See if we even need to do this */
if (list == NULL)
return;
for (link = list->first; link; link= link->next) {
if (link != vlink) {
if (!strcmp(GIVE_STRADDR(link, name_offs), GIVE_STRADDR(vlink, name_offs))) {
exists = 1;
break;
}
}
}
if (exists == 0)
return;
/* Strip off the suffix */
dot = strchr(GIVE_STRADDR(vlink, name_offs), '.');
if (dot)
*dot=0;
for (number = 1; number <= 999; number++) {
BLI_snprintf(tempname, 128, "%s.%03d", GIVE_STRADDR(vlink, name_offs), number);
exists = 0;
for (link= list->first; link; link= link->next) {
if (vlink != link) {
if (!strcmp(GIVE_STRADDR(link, name_offs), tempname)) {
exists = 1;
break;
}
}
}
if (exists == 0) {
BLI_strncpy(GIVE_STRADDR(vlink, name_offs), tempname, len);
return;
}
}
}
void BLI_addhead(ListBase *listbase, void *vlink)
{
@ -1444,10 +1521,10 @@ static int add_win32_extension(char *name)
return (retval);
}
void BLI_where_am_i(char *fullname, char *name)
void BLI_where_am_i(char *fullname, const char *name)
{
char filename[FILE_MAXDIR+FILE_MAXFILE];
char *path, *temp;
char *path = NULL, *temp;
int len;
#ifdef _WIN32
char *seperator = ";";
@ -1457,6 +1534,17 @@ void BLI_where_am_i(char *fullname, char *name)
char *slash = "/";
#endif
#ifdef __linux__
/* linux uses binreloc since argv[0] is not relyable, call br_init( NULL ) first */
path = br_find_exe( NULL );
if (path) {
strcpy(fullname, path);
return;
}
#endif
/* unix and non linux */
if (name && fullname && strlen(name)) {
strcpy(fullname, name);
if (name[0] == '.') {

@ -1861,12 +1861,24 @@ static void direct_link_bones(FileData *fd, Bone* bone)
static void direct_link_action(FileData *fd, bAction *act)
{
bActionChannel *achan;
bActionGroup *agrp;
link_list(fd, &act->chanbase);
link_list(fd, &act->groups);
link_list(fd, &act->markers);
for (achan = act->chanbase.first; achan; achan=achan->next)
for (achan = act->chanbase.first; achan; achan=achan->next) {
achan->grp= newdataadr(fd, achan->grp);
link_list(fd, &achan->constraintChannels);
}
for (agrp = act->groups.first; agrp; agrp= agrp->next) {
if (agrp->channels.first) {
agrp->channels.first= newdataadr(fd, agrp->channels.first);
agrp->channels.last= newdataadr(fd, agrp->channels.last);
}
}
}
static void direct_link_armature(FileData *fd, bArmature *arm)
@ -2528,6 +2540,11 @@ static void direct_link_particlesystems(FileData *fd, ListBase *particles)
for(a=0; a<psys->totpart; a++, pa++)
pa->hair=newdataadr(fd,pa->hair);
}
if(psys->particles && psys->particles->keys){
ParticleData *pa = psys->particles;
for(a=0; a<psys->totpart; a++, pa++)
pa->keys=newdataadr(fd,pa->keys);
}
psys->child=newdataadr(fd,psys->child);
psys->effectors.first=psys->effectors.last=0;
@ -2815,8 +2832,7 @@ static void lib_link_object(FileData *fd, Main *main)
else printf("Object %s lost data.", ob->id.name+2);
if(ob->pose) {
free_pose_channels(ob->pose);
MEM_freeN(ob->pose);
free_pose(ob->pose);
ob->pose= NULL;
ob->flag &= ~OB_POSEMODE;
}
@ -2953,6 +2969,7 @@ static void direct_link_pose(FileData *fd, bPose *pose) {
return;
link_list(fd, &pose->chanbase);
link_list(fd, &pose->agroups);
for (pchan = pose->chanbase.first; pchan; pchan=pchan->next) {
pchan->bone= NULL;
@ -6718,6 +6735,7 @@ static void do_versions(FileData *fd, Library *lib, Main *main)
Lamp *la;
Material *ma;
ParticleSettings *part;
World *wrld;
Mesh *me;
/* unless the file was created 2.44.3 but not 2.45, update the constraints */
@ -6898,6 +6916,11 @@ static void do_versions(FileData *fd, Library *lib, Main *main)
}
}
for(wrld=main->world.first; wrld; wrld= wrld->id.next) {
if(wrld->ao_approx_error == 0.0f)
wrld->ao_approx_error= 0.25f;
}
if (main->versionfile < 245 || main->subversionfile < 12)
{
/* initialize skeleton generation toolsettings */
@ -7531,6 +7554,14 @@ static void expand_doit(FileData *fd, Main *mainvar, void *old)
}
}
static void expand_particlesettings(FileData *fd, Main *mainvar, ParticleSettings *part)
{
expand_doit(fd, mainvar, part->dup_ob);
expand_doit(fd, mainvar, part->dup_group);
expand_doit(fd, mainvar, part->eff_group);
expand_doit(fd, mainvar, part->bb_ob);
}
static void expand_ipo(FileData *fd, Main *mainvar, Ipo *ipo)
{
IpoCurve *icu;
@ -8123,6 +8154,8 @@ static void expand_main(FileData *fd, Main *mainvar)
case ID_IP:
expand_ipo(fd, mainvar, (Ipo *)id);
break;
case ID_PA:
expand_particlesettings(fd, mainvar, (ParticleSettings *)id);
}
doit= 1;
@ -8146,34 +8179,42 @@ static int object_in_any_scene(Object *ob)
}
/* when *lib set, it also does objects that were in the appended group */
static void give_base_to_objects(Scene *sce, ListBase *lb, Library *lib)
static void give_base_to_objects(Scene *sce, ListBase *lb, Library *lib, int is_group_append)
{
Object *ob;
Base *base;
/* give all objects which are LIB_INDIRECT a base, or for a group when *lib has been set */
for(ob= lb->first; ob; ob= ob->id.next) {
if( ob->id.flag & LIB_INDIRECT ) {
int do_it= 0;
if(ob->id.us==0)
do_it= 1;
else if(ob->id.us==1 && lib)
if(ob->id.lib==lib && (ob->flag & OB_FROMGROUP) && object_in_any_scene(ob)==0)
do_it= 1;
if(do_it) {
base= MEM_callocN( sizeof(Base), "add_ext_base");
BLI_addtail(&(sce->base), base);
base->lay= ob->lay;
base->object= ob;
base->flag= ob->flag;
ob->id.us= 1;
/* IF below is quite confusing!
if we are appending, but this object wasnt just added allong with a group,
then this is alredy used indirectly in the scene somewhere else and we didnt just append it.
ob->id.flag -= LIB_INDIRECT;
ob->id.flag |= LIB_EXTERN;
(ob->id.flag & LIB_APPEND_TAG)==0 means that this is a newly appended object - Campbell */
if (is_group_append==0 || (ob->id.flag & LIB_APPEND_TAG)==0) {
int do_it= 0;
if(ob->id.us==0)
do_it= 1;
else if(ob->id.us==1 && lib)
if(ob->id.lib==lib && (ob->flag & OB_FROMGROUP) && object_in_any_scene(ob)==0)
do_it= 1;
if(do_it) {
base= MEM_callocN( sizeof(Base), "add_ext_base");
BLI_addtail(&(sce->base), base);
base->lay= ob->lay;
base->object= ob;
base->flag= ob->flag;
ob->id.us= 1;
ob->id.flag -= LIB_INDIRECT;
ob->id.flag |= LIB_EXTERN;
}
}
}
}
@ -8312,11 +8353,15 @@ static Library* library_append( Scene *scene, char* file, char *dir, int idcode,
lib_verify_nodetree(G.main);
/* give a base to loose objects. If group append, do it for objects too */
if(idcode==ID_GR)
give_base_to_objects(scene, &(G.main->object), (flag & FILE_LINK)?NULL:curlib);
else
give_base_to_objects(scene, &(G.main->object), NULL);
if(idcode==ID_GR) {
if (flag & FILE_LINK) {
give_base_to_objects(scene, &(G.main->object), NULL, 0);
} else {
give_base_to_objects(scene, &(G.main->object), curlib, 1);
}
} else {
give_base_to_objects(scene, &(G.main->object), NULL, 0);
}
/* has been removed... erm, why? s..ton) */
/* 20040907: looks like they are give base already in append_named_part(); -Nathan L */
/* 20041208: put back. It only linked direct, not indirect objects (ton) */

@ -560,6 +560,13 @@ static void write_particlesystems(WriteData *wd, ListBase *particles)
for(a=0; a<psys->totpart; a++, pa++)
writestruct(wd, DATA, "HairKey", pa->totkey, pa->hair);
}
if(psys->particles->keys) {
ParticleData *pa = psys->particles;
for(a=0; a<psys->totpart; a++, pa++)
writestruct(wd, DATA, "ParticleKey", pa->totkey, pa->keys);
}
}
if(psys->child) writestruct(wd, DATA, "ChildParticle", psys->totchild ,psys->child);
writestruct(wd, DATA, "SoftBody", 1, psys->soft);
@ -772,6 +779,7 @@ static void write_constraints(WriteData *wd, ListBase *conlist)
static void write_pose(WriteData *wd, bPose *pose)
{
bPoseChannel *chan;
bActionGroup *grp;
/* Write each channel */
if (!pose)
@ -787,6 +795,10 @@ static void write_pose(WriteData *wd, bPose *pose)
writestruct(wd, DATA, "bPoseChannel", 1, chan);
}
/* Write groups */
for (grp=pose->agroups.first; grp; grp=grp->next)
writestruct(wd, DATA, "bActionGroup", 1, grp);
/* Write this pose */
writestruct(wd, DATA, "bPose", 1, pose);
@ -1752,6 +1764,7 @@ static void write_actions(WriteData *wd, ListBase *idbase)
{
bAction *act;
bActionChannel *chan;
bActionGroup *grp;
TimeMarker *marker;
for(act=idbase->first; act; act= act->id.next) {
@ -1764,6 +1777,10 @@ static void write_actions(WriteData *wd, ListBase *idbase)
write_constraint_channels(wd, &chan->constraintChannels);
}
for (grp=act->groups.first; grp; grp=grp->next) {
writestruct(wd, DATA, "bActionGroup", 1, grp);
}
for (marker=act->markers.first; marker; marker=marker->next) {
writestruct(wd, DATA, "TimeMarker", 1, marker);
}

@ -280,6 +280,7 @@ short imb_addrectfloatImBuf(struct ImBuf * ibuf)
size = ibuf->x * ibuf->y;
size = size * 4 * sizeof(float);
ibuf->channels= 4;
if ( (ibuf->rect_float = MEM_mapallocN(size, "imb_addrectfloatImBuf")) ){
ibuf->mall |= IB_rectfloat;
@ -445,7 +446,7 @@ struct ImBuf *IMB_dupImBuf(struct ImBuf *ibuf1)
memcpy(ibuf2->rect, ibuf1->rect, x * y * sizeof(int));
if (flags & IB_rectfloat)
memcpy(ibuf2->rect_float, ibuf1->rect_float, 4 * x * y * sizeof(float));
memcpy(ibuf2->rect_float, ibuf1->rect_float, ibuf1->channels * x * y * sizeof(float));
if (flags & IB_planes)
memcpy(*(ibuf2->planes),*(ibuf1->planes),ibuf1->depth * ibuf1->skipx * y * sizeof(int));

@ -594,7 +594,7 @@ static int startffmpeg(struct anim * anim) {
anim->pFrame = avcodec_alloc_frame();
anim->pFrameRGB = avcodec_alloc_frame();
if (avpicture_get_size(PIX_FMT_RGBA32, anim->x, anim->y)
if (avpicture_get_size(PIX_FMT_BGR32, anim->x, anim->y)
!= anim->x * anim->y * 4) {
fprintf (stderr,
"ffmpeg has changed alloc scheme ... ARGHHH!\n");
@ -617,7 +617,7 @@ static int startffmpeg(struct anim * anim) {
anim->pCodecCtx->pix_fmt,
anim->pCodecCtx->width,
anim->pCodecCtx->height,
PIX_FMT_RGBA,
PIX_FMT_BGR32,
SWS_FAST_BILINEAR | SWS_PRINT_INFO,
NULL, NULL, NULL);
@ -637,7 +637,7 @@ static ImBuf * ffmpeg_fetchibuf(struct anim * anim, int position) {
avpicture_fill((AVPicture *)anim->pFrameRGB,
(unsigned char*) ibuf->rect,
PIX_FMT_RGBA32, anim->x, anim->y);
PIX_FMT_BGR32, anim->x, anim->y);
if (position != anim->curposition + 1) {
if (position > anim->curposition + 1
@ -714,34 +714,98 @@ static ImBuf * ffmpeg_fetchibuf(struct anim * anim, int position) {
}
if(frameFinished && pos_found == 1) {
int * dstStride = anim->pFrameRGB->linesize;
uint8_t** dst = anim->pFrameRGB->data;
int dstStride2[4]= { -dstStride[0], 0, 0, 0 };
uint8_t* dst2[4]= {
dst[0] + (anim->y - 1)*dstStride[0],
0, 0, 0 };
int i;
unsigned char* r;
if (G.order == B_ENDIAN) {
int * dstStride
= anim->pFrameRGB->linesize;
uint8_t** dst = anim->pFrameRGB->data;
int dstStride2[4]
= { dstStride[0], 0, 0, 0 };
uint8_t* dst2[4]= {
dst[0], 0, 0, 0 };
int x,y,h,w;
unsigned char* bottom;
unsigned char* top;
sws_scale(anim->img_convert_ctx,
anim->pFrame->data,
anim->pFrame->linesize,
0,
anim->pCodecCtx->height,
dst2,
dstStride2);
sws_scale(anim->img_convert_ctx,
anim->pFrame->data,
anim->pFrame->linesize,
0,
anim->pCodecCtx->height,
dst2,
dstStride2);
/* workaround: sws_scale sets alpha = 0... */
/* workaround: sws_scale
sets alpha = 0 and compensate
for altivec-bugs and flipy... */
r = (unsigned char*) ibuf->rect;
bottom = (unsigned char*) ibuf->rect;
top = bottom
+ ibuf->x * (ibuf->y-1) * 4;
for (i = 0; i < ibuf->x * ibuf->y; i++) {
r[3] = 0xff;
r+=4;
h = (ibuf->y + 1) / 2;
w = ibuf->x;
for (y = 0; y < h; y++) {
unsigned char tmp[4];
unsigned long * tmp_l =
(unsigned long*) tmp;
tmp[3] = 0xff;
for (x = 0; x < w; x++) {
tmp[0] = bottom[3];
tmp[1] = bottom[2];
tmp[2] = bottom[1];
bottom[0] = top[3];
bottom[1] = top[2];
bottom[2] = top[1];
bottom[3] = 0xff;
*(unsigned long*) top
= *tmp_l;
bottom +=4;
top += 4;
}
top -= 8 * w;
}
av_free_packet(&packet);
break;
} else {
int * dstStride
= anim->pFrameRGB->linesize;
uint8_t** dst = anim->pFrameRGB->data;
int dstStride2[4]
= { -dstStride[0], 0, 0, 0 };
uint8_t* dst2[4]= {
dst[0]
+ (anim->y - 1)*dstStride[0],
0, 0, 0 };
int i;
unsigned char* r;
sws_scale(anim->img_convert_ctx,
anim->pFrame->data,
anim->pFrame->linesize,
0,
anim->pCodecCtx->height,
dst2,
dstStride2);
/* workaround: sws_scale
sets alpha = 0... */
r = (unsigned char*) ibuf->rect;
for (i = 0; i < ibuf->x * ibuf->y;i++){
r[3] = 0xff;
r+=4;
}
av_free_packet(&packet);
break;
}
av_free_packet(&packet);
break;
}
}

@ -61,6 +61,7 @@
#include <stdio.h> // printf
#include <math.h> // sqrt
#include <sys/types.h>
/*** declarations ***/
@ -769,7 +770,7 @@ static Color32 buildNormal(uint8 x, uint8 y)
float nx = 2 * (x / 255.0f) - 1;
float ny = 2 * (y / 255.0f) - 1;
float nz = 0.0f;
if (1 - nx*nx - ny*ny > 0) nz = sqrtf(1 - nx*nx - ny*ny);
if (1 - nx*nx - ny*ny > 0) nz = sqrt(1 - nx*nx - ny*ny);
uint8 z = clamp(int(255.0f * (nz + 1) / 2.0f), 0, 255);
return Color32(x, y, z);

@ -51,22 +51,28 @@ I stole it from util.h in the plugins api */
/* Only this one is used liberally here, and in imbuf */
void IMB_convert_rgba_to_abgr(struct ImBuf *ibuf)
{
int size, do_float=0;
int size;
unsigned char rt, *cp = (unsigned char *)ibuf->rect;
float rtf, *cpf = ibuf->rect_float;
if (ibuf->rect_float) do_float = 1;
size = ibuf->x * ibuf->y;
while(size-- > 0) {
rt= cp[0];
cp[0]= cp[3];
cp[3]= rt;
rt= cp[1];
cp[1]= cp[2];
cp[2]= rt;
cp+= 4;
if (do_float) {
if (ibuf->rect) {
size = ibuf->x * ibuf->y;
while(size-- > 0) {
rt= cp[0];
cp[0]= cp[3];
cp[3]= rt;
rt= cp[1];
cp[1]= cp[2];
cp[2]= rt;
cp+= 4;
}
}
if (ibuf->rect_float) {
size = ibuf->x * ibuf->y;
while(size-- > 0) {
rtf= cpf[0];
cpf[0]= cpf[3];
cpf[3]= rtf;

@ -38,6 +38,7 @@ struct Ipo;
struct IpoCurve;
struct gla2DDrawInfo;
struct bAction;
struct bActionGroup;
struct Object;
struct ListBase;
@ -75,14 +76,16 @@ void draw_cfra_action(void);
/* Channel Drawing */
void draw_icu_channel(struct gla2DDrawInfo *di, struct IpoCurve *icu, float ypos);
void draw_ipo_channel(struct gla2DDrawInfo *di, struct Ipo *ipo, float ypos);
void draw_action_channel(struct gla2DDrawInfo *di, bAction *act, float ypos);
void draw_object_channel(struct gla2DDrawInfo *di, Object *ob, float ypos);
void draw_agroup_channel(struct gla2DDrawInfo *di, struct bActionGroup *agrp, float ypos);
void draw_action_channel(struct gla2DDrawInfo *di, struct bAction *act, float ypos);
void draw_object_channel(struct gla2DDrawInfo *di, struct Object *ob, float ypos);
/* Keydata Generation */
void icu_to_keylist(struct IpoCurve *icu, ListBase *keys, ListBase *blocks);
void ipo_to_keylist(struct Ipo *ipo, ListBase *keys, ListBase *blocks);
void action_to_keylist(bAction *act, ListBase *keys, ListBase *blocks);
void ob_to_keylist(Object *ob, ListBase *keys, ListBase *blocks);
void agroup_to_keylist(struct bActionGroup *agrp, ListBase *keys, ListBase *blocks);
void action_to_keylist(struct bAction *act, ListBase *keys, ListBase *blocks);
void ob_to_keylist(struct Object *ob, ListBase *keys, ListBase *blocks);
#endif /* BDR_DRAWACTION_H */

@ -111,6 +111,8 @@ void set_ob_ipoflags(void);
void select_select_keys(void);
int vergbaseco(const void *a1, const void *a2);
void auto_timeoffs(void);
void ofs_timeoffs(void);
void rand_timeoffs(void);
void texspace_edit(void);
void flip_subdivison(int);
void mirrormenu(void);

@ -33,7 +33,6 @@
#include "DNA_listBase.h"
#include "DNA_vec_types.h"
#include "BKE_sculpt.h"
#include "transform.h"
struct uiBlock;
struct BrushData;
@ -59,15 +58,13 @@ void sculptmode_draw_interface_tools(struct uiBlock *block,unsigned short cx, un
void sculptmode_draw_interface_brush(struct uiBlock *block,unsigned short cx, unsigned short cy);
void sculptmode_draw_interface_textures(struct uiBlock *block,unsigned short cx, unsigned short cy);
void sculptmode_rem_tex(void*,void*);
void sculptmode_propset_init(PropsetMode mode);
void sculptmode_propset(const unsigned short event);
void sculptmode_selectbrush_menu(void);
void sculptmode_draw_mesh(int);
void sculpt_paint_brush(char clear);
void sculpt_stroke_draw();
void sculpt_radialcontrol_start(int mode);
struct BrushData *sculptmode_brush(void);
float tex_angle(void);
void do_symmetrical_brush_actions(struct EditData *e, short *, short *);
void sculptmode_update_tex(void);

@ -43,6 +43,7 @@
/* Some types for easier type-testing */
enum {
ACTTYPE_NONE= 0,
ACTTYPE_GROUP,
ACTTYPE_ACHAN,
ACTTYPE_CONCHAN,
ACTTYPE_ICU,
@ -53,6 +54,10 @@ enum {
};
/* Macros for easier/more consistant state testing */
#define EDITABLE_AGRP(agrp) ((agrp->flag & AGRP_PROTECTED)==0)
#define EXPANDED_AGRP(agrp) (agrp->flag & AGRP_EXPANDED)
#define SEL_AGRP(agrp) ((agrp->flag & AGRP_SELECTED) || (agrp->flag & AGRP_ACTIVE))
#define VISIBLE_ACHAN(achan) ((achan->flag & ACHAN_HIDDEN)==0)
#define EDITABLE_ACHAN(achan) ((VISIBLE_ACHAN(achan)) && ((achan->flag & ACHAN_PROTECTED)==0))
#define EXPANDED_ACHAN(achan) ((VISIBLE_ACHAN(achan)) && (achan->flag & ACHAN_EXPANDED))
@ -81,7 +86,6 @@ enum {
/* constants for setting ipo-extrapolation type */
enum {
SET_EXTEND_MENU = 9,
SET_EXTEND_POPUP = 10,
@ -91,9 +95,19 @@ enum {
SET_EXTEND_CYCLICEXTRAPOLATION
};
/* constants for channel rearranging */
/* WARNING: don't change exising ones without modifying rearrange func accordingly */
enum {
REARRANGE_ACTCHAN_TOP= -2,
REARRANGE_ACTCHAN_UP= -1,
REARRANGE_ACTCHAN_DOWN= 1,
REARRANGE_ACTCHAN_BOTTOM= 2
};
struct bAction;
struct bActionChannel;
struct bActionGroup;
struct bPoseChannel;
struct Object;
struct Ipo;
@ -125,11 +139,16 @@ void free_actcopybuf(void);
void copy_actdata(void);
void paste_actdata(void);
/* Channel/strip operations */
void up_sel_action(void);
void down_sel_action(void);
void top_sel_action(void);
void bottom_sel_action(void);
/* Group/Channel Operations */
struct bActionGroup *get_active_actiongroup(struct bAction *act);
void set_active_actiongroup(struct bAction *act, struct bActionGroup *agrp, short select);
void unique_name_actiongroup(struct ListBase *lb, struct bActionGroup *agrp);
// <--- add some func to add group for action-channel based on corresponding pchan's grouping
void action_groups_group(short add_group);
void action_groups_ungroup(void);
/* Channel/Strip Operations */
void rearrange_action_channels(short mode);
void expand_all_action(void);
void openclose_level_action(short mode);

@ -38,6 +38,7 @@
struct Object;
struct ParticleSystem;
struct ParticleEditSettings;
struct RadialControl;
/* particle edit mode */
void PE_set_particle_edit(void);
@ -53,6 +54,7 @@ short PE_get_current_num(struct Object *ob);
int PE_minmax(float *min, float *max);
void PE_get_colors(char sel[4], char nosel[4]);
struct ParticleEditSettings *PE_settings(void);
struct RadialControl **PE_radialcontrol();
/* update calls */
void PE_hide_keys_time(struct ParticleSystem *psys, float cfra);
@ -83,6 +85,7 @@ void PE_remove_doubles(void);
void PE_mirror_x(int tagged);
void PE_selectbrush_menu(void);
void PE_remove_doubles(void);
void PE_radialcontrol_start(const int mode);
/* undo */
void PE_undo_push(char *str);

@ -62,6 +62,7 @@ void mouse_select_seq(void);
void no_gaps(void);
void seq_snap(short event);
void seq_snap_menu(void);
void seq_mute_sel( int mute );
void set_filter_seq(void);
void swap_select_seq(void);
void touch_seq_files(void);
@ -77,9 +78,18 @@ void select_surround_from_last();
void select_dir_from_last(int lr);
void select_neighbor_from_last(int lr);
void select_linked_seq(int mode);
int test_overlap_seq(struct Sequence *test);
void shuffle_seq(struct Sequence *test);
struct Sequence* alloc_sequence(ListBase *lb, int cfra, int machine); /*used from python*/
int check_single_seq(struct Sequence *seq);
/* seq funcs for transform
notice the difference between start/end and left/right.
left and right are the bounds at which the setuence is rendered,
start and end are from the start and fixed length of the sequence.
*/
/* sequence transform functions, for internal used */
int seq_tx_get_start(struct Sequence *seq);
int seq_tx_get_end(struct Sequence *seq);
@ -94,40 +104,9 @@ void seq_tx_set_final_right(struct Sequence *seq, int i);
int seq_tx_check_left(struct Sequence *seq);
int seq_tx_check_right(struct Sequence *seq);
#define SEQ_DEBUG_INFO(seq) printf("seq into '%s' -- len:%i start:%i startstill:%i endstill:%i startofs:%i endofs:%i\n",\
seq->name, seq->len, seq->start, seq->startstill, seq->endstill, seq->startofs, seq->endofs)
#define SEQ_DEBUG_INFO(seq) printf("seq into '%s' -- len:%i start:%i startstill:%i endstill:%i startofs:%i endofs:%i depth:%i\n",\
seq->name, seq->len, seq->start, seq->startstill, seq->endstill, seq->startofs, seq->endofs, seq->depth)
/* seq macro's for transform
notice the difference between start/end and left/right.
left and right are the bounds at which the setuence is rendered,
start and end are from the start and fixed length of the sequence.
*/
/*
#define SEQ_GET_START(seq) (seq->start)
#define SEQ_GET_END(seq) (seq->start+seq->len)
#define SEQ_GET_FINAL_LEFT(seq) ((seq->start - seq->startstill) + seq->startofs)
#define SEQ_GET_FINAL_RIGHT(seq) (((seq->start+seq->len) + seq->endstill) - seq->endofs)
#define SEQ_SET_FINAL_LEFT(seq, val) \
if (val < (seq)->start) { \
(seq)->startstill = abs(val - (seq)->start); \
(seq)->startofs = 0; \
} else { \
(seq)->startofs = abs(val - (seq)->start); \
(seq)->startstill = 0; \
}
#define SEQ_SET_FINAL_RIGHT(seq, val) \
if (val > (seq)->start + (seq)->len) { \
(seq)->endstill = abs(val - ((seq)->start + (seq)->len)); \
(seq)->endofs = 0; \
} else { \
(seq)->endofs = abs(val - ((seq)->start + (seq)->len)); \
(seq)->endstill = 0; \
}
*/
#endif

@ -0,0 +1,62 @@
/*
* $Id: multires.h 13015 2007-12-27 07:27:03Z nicholasbishop $
*
* ***** BEGIN GPL LICENSE BLOCK *****
*
* 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 2
* 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, write to the Free Software Foundation,
* Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*
* The Original Code is Copyright (C) 2008 by Nicholas Bishop
* All rights reserved.
*
* The Original Code is: all of this file.
*
* Contributor(s): none yet.
*
* ***** END GPL LICENSE BLOCK *****
*/
#ifndef RADIALCONTROL_H
#define RADIALCONTROL_H
struct NumInput;
#define RADIALCONTROL_NONE 0
#define RADIALCONTROL_SIZE 1
#define RADIALCONTROL_STRENGTH 2
#define RADIALCONTROL_ROTATION 3
typedef void (*RadialControlCallback)(const int, const int);
typedef struct RadialControl {
int mode;
short origloc[2];
unsigned int tex;
int new_value;
int original_value;
int max_value;
RadialControlCallback callback;
struct NumInput *num;
} RadialControl;
RadialControl *radialcontrol_start(const int mode, RadialControlCallback callback,
const int original_value, const int max_value,
const unsigned int tex);
void radialcontrol_do_events(RadialControl *rc, const unsigned short event);
void radialcontrol_draw(RadialControl *rc);
#endif

@ -37,9 +37,12 @@
/* FILTERED ACTION DATA - TYPES */
/* types of keyframe data in ActListElem */
#define ALE_NONE 0
#define ALE_IPO 1
#define ALE_ICU 2
typedef enum ALE_KEYTYPE {
ALE_NONE = 0,
ALE_IPO,
ALE_ICU,
ALE_GROUP
} ALE_KEYTYPE;
/* This struct defines a structure used for quick access */
typedef struct bActListElem {
@ -53,6 +56,8 @@ typedef struct bActListElem {
void *key_data; /* motion data - ipo or ipo-curve */
short datatype; /* type of motion data to expect */
struct bActionGroup *grp; /* action group that owns the channel */
void *owner; /* will either be an action channel or fake ipo-channel (for keys) */
short ownertype; /* type of owner */
} bActListElem;
@ -61,17 +66,21 @@ typedef struct bActListElem {
/* FILTER ACTION DATA - METHODS/TYPES */
/* filtering flags - under what circumstances should a channel be added */
#define ACTFILTER_VISIBLE 0x001 /* should channels be visible */
#define ACTFILTER_SEL 0x002 /* should channels be selected */
#define ACTFILTER_FOREDIT 0x004 /* does editable status matter */
#define ACTFILTER_CHANNELS 0x008 /* do we only care that it is a channel */
#define ACTFILTER_IPOKEYS 0x010 /* only channels referencing ipo's */
#define ACTFILTER_ONLYICU 0x020 /* only reference ipo-curves */
#define ACTFILTER_FORDRAWING 0x040 /* make list for interface drawing */
typedef enum ACTFILTER_FLAGS {
ACTFILTER_VISIBLE = (1<<0), /* should channels be visible */
ACTFILTER_SEL = (1<<1), /* should channels be selected */
ACTFILTER_FOREDIT = (1<<2), /* does editable status matter */
ACTFILTER_CHANNELS = (1<<3), /* do we only care that it is a channel */
ACTFILTER_IPOKEYS = (1<<4), /* only channels referencing ipo's */
ACTFILTER_ONLYICU = (1<<5), /* only reference ipo-curves */
ACTFILTER_FORDRAWING = (1<<6) /* make list for interface drawing */
} ACTFILTER_FLAGS;
/* Action Editor - Main Data types */
#define ACTCONT_NONE 0
#define ACTCONT_ACTION 1
#define ACTCONT_SHAPEKEY 2
typedef enum ACTCONT_TYPES {
ACTCONT_NONE = 0,
ACTCONT_ACTION,
ACTCONT_SHAPEKEY
} ACTCONT_TYPES;
#endif

@ -315,7 +315,7 @@ void curvemap_buttons(struct uiBlock *block, struct CurveMapping *cumap, char la
#define B_FS_PIC 1601
#define B_FS_BACKBUF 1602
#define B_FS_FTYPE 1604
#define B_FS_FTYPE 1604 /* FTYPE is no more */
#define B_DORENDER 1605
#define B_DOANIM 1606
#define B_PLAYANIM 1607
@ -332,7 +332,7 @@ void curvemap_buttons(struct uiBlock *block, struct CurveMapping *cumap, char la
#define B_PR_PANO 1619
#define B_PR_NTSC 1620
#define B_IS_FTYPE 1622
#define B_IS_FTYPE 1622 /* FTYPE is nomore */
#define B_IS_BACKBUF 1623
#define B_PR_PC 1624
@ -531,6 +531,11 @@ void curvemap_buttons(struct uiBlock *block, struct CurveMapping *cumap, char la
#define B_POSELIB_ALONE 2321
#define B_POSELIB_DELETE 2322
#define B_POSEGRP_RECALC 2330
#define B_POSEGRP_ADD 2331
#define B_POSEGRP_REMOVE 2332
/* *********************** */
#define B_CAMBUTS 2500
@ -732,7 +737,7 @@ enum {
#define B_EFFECTSBUTS 3500
#define B_AUTOTIMEOFS 3403
#define B_AUTOTIMEOFS 3403 /* see B_OFSTIMEOFS, B_RANDTIMEOFS also */
#define B_FRAMEMAP 3404
#define B_NEWEFFECT 3405
#define B_PREVEFFECT 3406
@ -767,6 +772,8 @@ enum {
#define B_PART_EDITABLE 3435
#define B_PART_REKEY 3436
#define B_PART_ENABLE 3437
#define B_OFSTIMEOFS 3438 /* see B_AUTOTIMEOFS too */
#define B_RANDTIMEOFS 3439
#define B_MODIFIER_BUTS 3600

@ -265,18 +265,19 @@ typedef struct TransInfo {
/* transdata->flag */
#define TD_SELECTED 1
#define TD_NOACTION 2
#define TD_USEQUAT 4
#define TD_NOTCONNECTED 8
#define TD_SINGLESIZE 16 /* used for scaling of MetaElem->rad */
#define TD_ACTIVE (1 << 1)
#define TD_NOACTION (1 << 2)
#define TD_USEQUAT (1 << 3)
#define TD_NOTCONNECTED (1 << 4)
#define TD_SINGLESIZE (1 << 5) /* used for scaling of MetaElem->rad */
#ifdef WITH_VERSE
#define TD_VERSE_OBJECT 32
#define TD_VERSE_VERT 64
#define TD_VERSE_OBJECT (1 << 6)
#define TD_VERSE_VERT (1 << 7)
#endif
#define TD_TIMEONLY 128
#define TD_NOCENTER 256
#define TD_NO_EXT 512 /* ext abused for particle key timing */
#define TD_SKIP 1024 /* don't transform this data */
#define TD_TIMEONLY (1 << 8)
#define TD_NOCENTER (1 << 9)
#define TD_NO_EXT (1 << 10) /* ext abused for particle key timing */
#define TD_SKIP (1 << 11) /* don't transform this data */
/* transsnap->status */
#define SNAP_ON 1
@ -291,6 +292,7 @@ typedef struct TransInfo {
#define SNAP_CLOSEST 0
#define SNAP_CENTER 1
#define SNAP_MEDIAN 2
#define SNAP_ACTIVE 3
void checkFirstTime(void);

@ -37,6 +37,8 @@
struct SpaceLink;
struct Object;
/* -------------- Poses ----------------- */
/* PoseChannel stores the results of Actions (ipos) and transform information
with respect to the restposition of Armature bones */
typedef struct bPoseChannel {
@ -49,7 +51,7 @@ typedef struct bPoseChannel {
short ikflag; /* settings for IK bones */
short selectflag; /* copy of bone flag, so you can work with library armatures */
short protectflag; /* protect channels from being transformed */
short customCol; /* index of custom color set to use (0=default - used for all old files) */
short agrp_index; /* index of action-group this bone belongs to (0 = default/no group) */
int pathlen; /* for drawing paths, the amount of frames */
int pathsf; /* for drawing paths, the start frame number */
@ -96,13 +98,45 @@ typedef struct bPose {
float ctime; /* local action time of this pose */
float stride_offset[3]; /* applied to object */
float cyclic_offset[3]; /* result of match and cycles, applied in where_is_pose() */
ListBase agroups; /* list of bActionGroups */
int active_group; /* index of active group (starts from 1) */
int pad;
} bPose;
/* ------------- Action ---------------- */
/* Action-Channel Group. These are stored as a list per-Action, and are only used to
* group that Action's Action-Channels when displayed in the Action Editor.
*
* Even though all Action-Channels live in a big list per Action, each group they are in also
* holds references to the achans within that list which belong to it. Care must be taken to
* ensure that action-groups never end up being the sole 'owner' of a channel.
*/
typedef struct bActionGroup {
struct bActionGroup *next, *prev;
int flag; /* settings for this action-group */
int customCol; /* index of custom color set to use when used for bones (0=default - used for all old files) */
char name[32]; /* name of the group */
ListBase channels; /* Note: this must not be touched by standard listbase functions */
} bActionGroup;
/* Action Channels belong to Actions. They are linked with an IPO block, and can also own
* Constraint Channels in certain situations.
*
* Action-Channels can only belong to one group at a time, but they still live the Action's
* list of achans (to preserve backwards compatability, and also minimise the code
* that would need to be recoded). Grouped achans are stored at the start of the list, according
* to the position of the group in the list, and their position within the group.
*/
typedef struct bActionChannel {
struct bActionChannel *next, *prev;
bActionGroup *grp; /* Action Group this Action Channel belongs to */
struct Ipo *ipo; /* IPO block this action channel references */
ListBase constraintChannels; /* Constraint Channels (when Action Channel represents an Object or Bone) */
@ -119,12 +153,16 @@ typedef struct bAction {
ID id;
ListBase chanbase; /* Action Channels in this Action */
ListBase groups; /* Action Groups in the Action */
ListBase markers; /* TimeMarkers local to this Action for labelling 'poses' */
int active_marker; /* Index of active-marker (first marker = 1) */
int pad;
} bAction;
/* ------------- Action Editor --------------------- */
/* Action Editor Space. This is defined here instead of in DNA_space_types.h */
typedef struct SpaceAction {
struct SpaceLink *next, *prev;
@ -143,6 +181,9 @@ typedef struct SpaceAction {
float timeslide; /* for Time-Slide transform mode drawing - current frame? */
} SpaceAction;
/* -------------- Action Flags -------------- */
/* Action Channel flags */
typedef enum ACHAN_FLAG {
ACHAN_SELECTED = (1<<0),
@ -155,6 +196,20 @@ typedef enum ACHAN_FLAG {
ACHAN_MOVED = (1<<31),
} ACHAN_FLAG;
/* Action Group flags */
typedef enum AGRP_FLAG {
AGRP_SELECTED = (1<<0),
AGRP_ACTIVE = (1<<1),
AGRP_PROTECTED = (1<<2),
AGRP_EXPANDED = (1<<3),
AGRP_TEMP = (1<<30),
AGRP_MOVED = (1<<31)
} AGRP_FLAG;
/* ------------ Action Editor Flags -------------- */
/* SpaceAction flag */
typedef enum SACTION_FLAG {
/* during transform */
@ -178,6 +233,9 @@ typedef enum SACTSNAP_MODES {
/* snap to nearest marker */
SACTSNAP_MARKER,
} SACTSNAP_MODES;
/* --------- Pose Flags --------------- */
/* Pose->flag */
typedef enum POSE_FLAG {

@ -88,8 +88,10 @@ typedef struct Material {
float strand_min, strand_widthfade;
char strand_uvname[32];
float sbias; /* shadow bias */
float sbias; /* shadow bias to prevent terminator prob */
float lbias; /* factor to multiply lampbias with (0.0 = no mult) */
float shad_alpha; /* in use for irregular shadowbuffer */
float padf; /* free padding, take me! */
/* for buttons and render*/
char rgbsel, texact, pr_type, use_nodes;

@ -119,7 +119,7 @@ typedef struct Object {
int dupon, dupoff, dupsta, dupend;
float sf, ctime;
float sf, ctime; /* sf is time-offset, ctime is the objects current time */
/* during realtime */
@ -297,6 +297,9 @@ extern Object workob;
/* for stride edit */
#define OB_DISABLE_PATH 1024
#define OB_OFFS_PARENTADD 2048
/* (short) trackflag / upflag */
#define OB_POSX 0
#define OB_POSY 1

@ -128,7 +128,7 @@ typedef struct ParticleSettings {
/* general values */
float sta, end, lifetime, randlife;
float timetweak, jitfac, keyed_time;
float timetweak, jitfac, keyed_time, eff_hair, rt;
int totpart, userjit, grid_res;
/* initial velocity factors */

@ -153,6 +153,8 @@ typedef struct SceneRenderLayer {
#define SCE_PASS_INDEXOB 2048
#define SCE_PASS_UV 4096
#define SCE_PASS_RADIO 8192
#define SCE_PASS_MIST 16384
/* note, srl->passflag is treestore element 'nr' in outliner, short still... */
@ -279,7 +281,7 @@ typedef struct RenderData {
float YF_gamma, YF_exposure, YF_raybias, YF_AApixelsize, YF_AAthreshold;
/* paths to backbufffer, output, ftype */
char backbuf[160], pic[160], ftype[160];
char backbuf[160], pic[160];
/* stamps flags. */
int stamp;
@ -549,6 +551,9 @@ typedef struct Scene {
#define R_THREADS 0x80000
#define R_SPEED 0x100000
#define R_SSS 0x200000
#define R_NO_OVERWRITE 0x400000 /* skip existing files */
#define R_TOUCH 0x800000 /* touch files before rendering */
/* filtertype */
#define R_FILTER_BOX 0
@ -608,7 +613,7 @@ typedef struct Scene {
#define R_TARGA 0
#define R_IRIS 1
#define R_HAMX 2
#define R_FTYPE 3
#define R_FTYPE 3 /* ftype is nomore */
#define R_JPEG90 4
#define R_MOVIE 5
#define R_IRIZ 7
@ -658,6 +663,7 @@ typedef struct Scene {
#define SCE_SNAP_TARGET_CLOSEST 0
#define SCE_SNAP_TARGET_CENTER 1
#define SCE_SNAP_TARGET_MEDIAN 2
#define SCE_SNAP_TARGET_ACTIVE 3
/* sce->selectmode */
#define SCE_SELECT_VERTEX 1 /* for mesh */

@ -421,7 +421,7 @@ typedef struct SpaceImaSel {
/* filesel types */
#define FILE_UNIX 8
#define FILE_BLENDER 8
#define FILE_BLENDER 8 /* dont display relative paths */
#define FILE_SPECIAL 9
#define FILE_LOADLIB 1

@ -230,7 +230,7 @@ extern UserDef U; /* from usiblender.c !!!! */
#define USER_CUSTOM_RANGE (1 << 17)
#define USER_ADD_EDITMODE (1 << 18)
#define USER_ADD_VIEWALIGNED (1 << 19)
#define USER_ADD_VIEWALIGNED (1 << 19)
#define USER_RELPATHS (1 << 20)
/* viewzom */
#define USER_ZOOM_CONT 0

@ -104,9 +104,8 @@ typedef struct World {
float aodist, aodistfac, aoenergy, aobias;
short aomode, aosamp, aomix, aocolor;
float ao_adapt_thresh, ao_adapt_speed_fac;
float pad2[2];
short ao_samp_method;
short pad1[3];
float ao_approx_error, ao_approx_correction;
short ao_samp_method, ao_gather_method, ao_approx_passes, pad1;
float *aosphere, *aotables;
@ -151,12 +150,17 @@ typedef struct World {
/* aomode (use distances & random sampling modes) */
#define WO_AODIST 1
#define WO_AORNDSMP 2
#define WO_AOCACHE 4
/* aocolor */
#define WO_AOPLAIN 0
#define WO_AOSKYCOL 1
#define WO_AOSKYTEX 2
/* ao_gather_method */
#define WO_AOGATHER_RAYTRACE 0
#define WO_AOGATHER_APPROX 1
/* texco (also in DNA_material_types.h) */
#define TEXCO_ANGMAP 64
#define TEXCO_H_SPHEREMAP 256

@ -48,6 +48,7 @@ static bNodeSocketType cmp_node_rlayers_out[]= {
{ SOCK_RGBA, 0, "Refract", 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 1.0f},
{ SOCK_RGBA, 0, "Radio", 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 1.0f},
{ SOCK_VALUE, 0, "IndexOB", 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 1.0f},
{ SOCK_VALUE, 0, "Mist", 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 1.0f},
{ -1, 0, "" }
};
@ -149,6 +150,8 @@ void outputs_multilayer_get(RenderData *rd, RenderLayer *rl, bNodeStack **out, I
out[RRES_OUT_RADIO]->data= compbuf_multilayer_get(rd, rl, ima, iuser, SCE_PASS_RADIO);
if(out[RRES_OUT_INDEXOB]->hasoutput)
out[RRES_OUT_INDEXOB]->data= compbuf_multilayer_get(rd, rl, ima, iuser, SCE_PASS_INDEXOB);
if(out[RRES_OUT_MIST]->hasoutput)
out[RRES_OUT_MIST]->data= compbuf_multilayer_get(rd, rl, ima, iuser, SCE_PASS_MIST);
};
@ -236,7 +239,7 @@ static CompBuf *compbuf_from_pass(RenderData *rd, RenderLayer *rl, int rectx, in
CompBuf *buf;
int buftype= CB_VEC3;
if(ELEM(passcode, SCE_PASS_Z, SCE_PASS_INDEXOB))
if(ELEM3(passcode, SCE_PASS_Z, SCE_PASS_INDEXOB, SCE_PASS_MIST))
buftype= CB_VAL;
else if(passcode==SCE_PASS_VECTOR)
buftype= CB_VEC4;
@ -282,7 +285,9 @@ void node_composit_rlayers_out(RenderData *rd, RenderLayer *rl, bNodeStack **out
if(out[RRES_OUT_RADIO]->hasoutput)
out[RRES_OUT_RADIO]->data= compbuf_from_pass(rd, rl, rectx, recty, SCE_PASS_RADIO);
if(out[RRES_OUT_INDEXOB]->hasoutput)
out[RRES_OUT_INDEXOB]->data= compbuf_from_pass(rd, rl, rectx, recty, SCE_PASS_INDEXOB);
out[RRES_OUT_INDEXOB]->data= compbuf_from_pass(rd, rl, rectx, recty, SCE_PASS_INDEXOB);
if(out[RRES_OUT_MIST]->hasoutput)
out[RRES_OUT_MIST]->data= compbuf_from_pass(rd, rl, rectx, recty, SCE_PASS_MIST);
};

@ -1330,7 +1330,7 @@ static PyObject *Effect_getParticlesLoc( BPy_Effect * self )
/* if object is in motion */
if( ob->ipoflag & OB_OFFS_PARTICLE )
p_time= ob->sf;
p_time= give_timeoffset(ob);
else
p_time= 0.0;

@ -697,7 +697,7 @@ static PyObject *GroupObSeq_unlink( BPy_GroupObSeq * self, BPy_Object *value )
rem_from_group(self->bpygroup->group, blen_ob);
if(find_group(blen_ob)==NULL) {
if(find_group(blen_ob, NULL)==NULL) {
blen_ob->flag &= ~OB_FROMGROUP;
base= object_in_scene(blen_ob, G.scene);

@ -47,7 +47,7 @@ The valid IpoCurve constants are:
4. Camera Ipo: CA_LENS, CA_CLSTA, CA_CLEND, CA_APERT, CA_FDIST
5. Object Ipo: OB_LOCX, OB_LOCY, OB_LOCZ, OB_DLOCX, OB_DLOCY, OB_DLOCZ,
OB_ROTX, OB_ROTY, OB_ROTZ, OB_DROTX, OB_DROTY, OB_DROTZ,
OB_SIZEX, OB_SIZEY, OB_SIZEZ, OB_DSIZEX, OB_DSIZEY, OB_DSIZEZ,
OB_SCALEX, OB_SCALEY, OB_SCALEZ, OB_DSCALEX, OB_DSCALEY, OB_DSCALEZ,
OB_LAYER, OB_TIME, OB_COLR, OB_COLG, OB_COLB, OB_COLA,
OB_FSTRENG, OB_FFALL, OB_RDAMP, OB_DAMPING, OB_PERM
6. Curve Ipo: CU_SPEED

@ -246,10 +246,12 @@ class RenderData:
@type extensions: boolean
@ivar compositor: 'Do Compositor' enabled.
@type compositor: boolean
@ivar freeImages: 'Do Compositor' enabled.
@ivar freeImages: Texture images are freed after render.
@type freeImages: boolean
@ivar singleLayer: Only render the active layer.
@type singleLayer: boolean
@ivar activeLayer: The active render layer. Must be in range[0,num render layers-1]
@type activeLayer: int
@ivar saveBuffers: Save render buffers to disk while rendering, saves memory.
@type saveBuffers: boolean
@ivar compositeFree: Free nodes that are not used while composite.

@ -116,8 +116,6 @@ static PyObject *RenderData_SetRenderPath( BPy_RenderData *self,
PyObject *args );
static PyObject *RenderData_SetBackbufPath( BPy_RenderData *self,
PyObject *args );
static PyObject *RenderData_SetFtypePath( BPy_RenderData *self,
PyObject *args );
static PyObject *RenderData_SetOversamplingLevel( BPy_RenderData * self,
PyObject * args );
static PyObject *RenderData_SetRenderWinSize( BPy_RenderData * self,
@ -982,7 +980,6 @@ static int RenderData_setImageType( BPy_RenderData *self, PyObject *value )
case R_HAMX :
case R_IRIS :
case R_IRIZ :
case R_FTYPE :
case R_TIFF :
case R_CINEON :
case R_DPX :
@ -2220,29 +2217,6 @@ static int RenderData_setBackbufPath( BPy_RenderData *self, PyObject *value )
return 0;
}
PyObject *RenderData_getFtypePath( BPy_RenderData * self )
{
return PyString_FromString( self->renderContext->ftype );
}
static int RenderData_setFtypePath( BPy_RenderData *self, PyObject *value )
{
char *name;
name = PyString_AsString( value );
if( !name )
return EXPP_ReturnIntError( PyExc_TypeError, "expected a string" );
if( strlen( name ) >= sizeof(self->renderContext->ftype) )
return EXPP_ReturnIntError( PyExc_ValueError,
"ftype path is too long" );
strcpy( self->renderContext->ftype, name );
EXPP_allqueue( REDRAWBUTSSCENE, 0 );
return 0;
}
PyObject *RenderData_getRenderWinSize( BPy_RenderData * self )
{
return PyInt_FromLong( (long) self->renderContext->size );
@ -2357,6 +2331,32 @@ static int RenderData_setThreads( BPy_RenderData *self, PyObject *value )
return 0;
}
PyObject *RenderData_getActiveLayer( BPy_RenderData * self )
{
return PyInt_FromLong( (long) self->renderContext->actlay );
}
static int RenderData_setActiveLayer( BPy_RenderData *self, PyObject *value )
{
int layer;
short nr;
SceneRenderLayer *srl;
if( !PyInt_Check( value ) )
return EXPP_ReturnIntError( PyExc_TypeError, "active layer must be an int" );
layer = PyInt_AsLong( value );
for(nr=0, srl= self->renderContext->layers.first; srl; srl= srl->next, nr++) {
}
if(layer >= nr)
return EXPP_ReturnIntError( PyExc_ValueError, "value larger than number of render layers" );
self->renderContext->actlay = layer;
EXPP_allqueue(REDRAWBUTSSCENE, 0);
EXPP_allqueue(REDRAWNODE, 0);
return 0;
}
/***************************************************************************/
/* BPy_RenderData attribute def */
/***************************************************************************/
@ -2481,10 +2481,6 @@ static PyGetSetDef BPy_RenderData_getseters[] = {
(getter)RenderData_getBackbufPath, (setter)RenderData_setBackbufPath,
"Path to a background image (setting loads image)",
NULL},
{"ftypePath",
(getter)RenderData_getFtypePath, (setter)RenderData_setFtypePath,
"The path to Ftype file",
NULL},
{"edgeColor",
(getter)RenderData_getEdgeColor, (setter)RenderData_setEdgeColor,
"RGB color triplet for edges in Toon shading",
@ -2600,6 +2596,11 @@ static PyGetSetDef BPy_RenderData_getseters[] = {
"Scene link 'set' value",
NULL},
{"activeLayer",
(getter)RenderData_getActiveLayer, (setter)RenderData_setActiveLayer,
"Active rendering layer",
NULL},
{"yafrayGIMethod",
(getter)RenderData_getYafrayGIMethod, (setter)RenderData_setYafrayGIMethod,
"Global illumination method",
@ -2699,10 +2700,6 @@ static PyMethodDef BPy_RenderData_methods[] = {
{"enableBackbuf", ( PyCFunction ) RenderData_EnableBackbuf,
METH_VARARGS,
"(bool) - enable/disable the backbuf image"},
{"setFtypePath", ( PyCFunction ) RenderData_SetFtypePath, METH_VARARGS,
"(string) - get/set the path to output the Ftype file"},
{"getFtypePath", ( PyCFunction ) RenderData_getFtypePath, METH_NOARGS,
"() - get the path to Ftype file"},
{"enableExtensions", ( PyCFunction ) RenderData_EnableExtensions,
METH_VARARGS,
"(bool) - enable/disable windows extensions for output files"},
@ -3109,7 +3106,6 @@ PyObject *Render_Init( void )
PyModule_AddIntConstant( submodule, "HAMX", R_HAMX );
PyModule_AddIntConstant( submodule, "IRIS", R_IRIS );
PyModule_AddIntConstant( submodule, "IRISZ", R_IRIZ );
PyModule_AddIntConstant( submodule, "FTYPE", R_FTYPE );
PyModule_AddIntConstant( submodule, "PAL", B_PR_PAL );
PyModule_AddIntConstant( submodule, "NTSC", B_PR_NTSC );
PyModule_AddIntConstant( submodule, "DEFAULT", B_PR_PRESET );
@ -3173,13 +3169,6 @@ static PyObject *RenderData_SetBackbufPath( BPy_RenderData *self,
(setter)RenderData_setBackbufPath );
}
static PyObject *RenderData_SetFtypePath( BPy_RenderData *self,
PyObject *args )
{
return EXPP_setterWrapperTuple( (void *)self, args,
(setter)RenderData_setFtypePath );
}
static PyObject *RenderData_SetOversamplingLevel( BPy_RenderData * self,
PyObject * args )
{

@ -47,7 +47,7 @@ typedef struct ShadeResult
{
float combined[4];
float col[4];
float alpha;
float alpha, mist;
float diff[3]; /* no ramps, shadow, etc */
float spec[3];
float shad[3];
@ -64,6 +64,7 @@ struct ShadeInputCopy {
struct Material *mat;
struct VlakRen *vlr;
struct StrandRen *strand;
struct ObjectInstanceRen *obi;
struct ObjectRen *obr;
int facenr;
@ -96,6 +97,7 @@ typedef struct ShadeInput
struct Material *mat;
struct VlakRen *vlr;
struct StrandRen *strand;
struct ObjectInstanceRen *obi;
struct ObjectRen *obr;
int facenr;
@ -132,7 +134,7 @@ typedef struct ShadeInput
/* texture coordinates */
float lo[3], gl[3], ref[3], orn[3], winco[3], sticky[3], vcol[4], rad[3];
float refcol[4], displace[3];
float strand, tang[3], stress, winspeed[4];
float strandco, tang[3], stress, winspeed[4];
float duplilo[3], dupliuv[3];
ShadeInputUV uv[8]; /* 8 = MAX_MTFACE */

@ -0,0 +1,51 @@
/*
* $Id$
*
* ***** BEGIN GPL LICENSE BLOCK *****
*
* 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 2
* 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, write to the Free Software Foundation,
* Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*
* The Original Code is Copyright (C) 2008 Blender Foundation.
* All rights reserved.
*
* The Original Code is: all of this file.
*
* Contributor(s): Brecht Van Lommel.
*
* ***** END GPL LICENSE BLOCK *****
*/
#ifndef OCCLUSION_H
#define OCCLUSION_H
struct Render;
struct ShadeInput;
struct ShadeResult;
struct RenderPart;
struct ShadeSample;
struct DerivedMesh;
struct ObjectRen;
void make_occ_tree(struct Render *re);
void free_occ(struct Render *re);
void sample_occ(struct Render *re, struct ShadeInput *shi);
void cache_occ_samples(struct Render *re, struct RenderPart *pa, struct ShadeSample *ssamp);
void free_occ_samples(struct Render *re, struct RenderPart *pa);
void *cache_occ_mesh(struct Render *re, struct ObjectRen *obr, struct DerivedMesh *dm, float mat[][4]);
#endif

@ -158,6 +158,10 @@ struct Render
/* octree tables and variables for raytrace */
void *raytree;
/* occlusion tree */
void *occlusiontree;
ListBase occlusionmesh;
/* use this instead of R.r.cfra */
float cfra;
@ -174,7 +178,6 @@ struct Render
struct ObjectInstanceRen *objectinstance;
ListBase instancetable;
struct GHash *objecthash;
int totinstance;
struct Image *backbuf, *bakebuf;
@ -342,6 +345,7 @@ typedef struct StrandBuffer {
struct ObjectRen *obr;
struct Material *ma;
void *occlusionmesh;
unsigned int lay;
int overrideuv;
int flag, maxdepth;

@ -70,6 +70,7 @@ typedef struct StrandTableNode {
float *winspeed;
float *surfnor;
float *simplify;
int *face;
struct MCol *mcol;
float *uv;
int totuv, totmcol;
@ -114,6 +115,7 @@ float *RE_strandren_get_surfnor(struct ObjectRen *obr, struct StrandRen *strand,
float *RE_strandren_get_uv(struct ObjectRen *obr, struct StrandRen *strand, int n, char **name, int verify);
struct MCol *RE_strandren_get_mcol(struct ObjectRen *obr, struct StrandRen *strand, int n, char **name, int verify);
float *RE_strandren_get_simplify(struct ObjectRen *obr, struct StrandRen *strand, int verify);
int *RE_strandren_get_face(struct ObjectRen *obr, struct StrandRen *strand, int verify);
float *RE_strandren_get_winspeed(struct ObjectInstanceRen *obi, struct StrandRen *strand, int verify);
struct VertRen *RE_vertren_copy(struct ObjectRen *obr, struct VertRen *ver);

@ -57,7 +57,7 @@ void threaded_makeshadowbufs(struct Render *re);
* @param inp The inproduct between viewvector and ?
*
*/
float testshadowbuf(struct ShadBuf *shb, float *rco, float *dxco, float *dyco, float inp);
float testshadowbuf(struct ShadBuf *shb, float *rco, float *dxco, float *dyco, float inp, float mat_bias);
/**
* Determines the shadow factor for lamp <lar>, between <p1>

@ -69,6 +69,7 @@ void shade_input_initialize(struct ShadeInput *shi, struct RenderPart *pa, struc
void shade_sample_initialize(struct ShadeSample *ssamp, struct RenderPart *pa, struct RenderLayer *rl);
void shade_samples_do_AO(struct ShadeSample *ssamp);
void shade_samples_fill_with_ps(struct ShadeSample *ssamp, struct PixStr *ps, int x, int y);
int shade_samples(struct ShadeSample *ssamp, struct PixStr *ps, int x, int y);
void vlr_set_uv_indices(struct VlakRen *vlr, int *i1, int *i2, int *i3);

@ -100,6 +100,7 @@
#include "envmap.h"
#include "multires.h"
#include "occlusion.h"
#include "render_types.h"
#include "rendercore.h"
#include "renderdatabase.h"
@ -1497,7 +1498,7 @@ static int render_new_particle_system(Render *re, ObjectRen *obr, ParticleSystem
float *orco=0,*surfnor=0,*uvco=0, strandlen=0.0f, curlen=0.0f;
float hasize, pa_size, pa_time, r_tilt, cfra=bsystem_time(ob,(float)CFRA,0.0);
float adapt_angle=0.0, adapt_pix=0.0, random, simplify[2];
int i, a, k, max_k=0, totpart, totuv=0, override_uv=-1, dosimplify = 0;
int i, a, k, max_k=0, totpart, totuv=0, override_uv=-1, dosimplify = 0, doapproxao = 0;
int path_possible=0, keys_possible=0, baked_keys=0, totchild=psys->totchild;
int seed, path_nbr=0, path=0, orco1=0, adapt=0, uv[3]={0,0,0}, num;
char **uv_name=0;
@ -1656,6 +1657,10 @@ static int render_new_particle_system(Render *re, ObjectRen *obr, ParticleSystem
strandbuf->flag |= R_STRAND_B_UNITS;
svert= strandbuf->vert;
if((re->wrld.mode & WO_AMB_OCC) && (re->wrld.ao_gather_method == WO_AOGATHER_APPROX))
if(ma->amb != 0.0f)
doapproxao= 1;
}
}
}
@ -1704,15 +1709,15 @@ static int render_new_particle_system(Render *re, ObjectRen *obr, ParticleSystem
else
psys_particle_on_emitter(ob, psmd,part->from,pa->num,pa->num_dmcache,pa->fuv,pa->foffset,co,nor,0,0,orco,0);
num= pa->num_dmcache;
if(num == DMCACHE_NOTFOUND)
if(pa->num < psmd->dm->getNumFaces(psmd->dm))
num= pa->num;
if(uvco && ELEM(part->from,PART_FROM_FACE,PART_FROM_VOLUME)){
layer=psmd->dm->faceData.layers + CustomData_get_layer_index(&psmd->dm->faceData,CD_MFACE);
num= pa->num_dmcache;
if(num == DMCACHE_NOTFOUND)
if(pa->num < psmd->dm->getNumFaces(psmd->dm))
num= pa->num;
for(i=0; i<totuv; i++){
if(num != DMCACHE_NOTFOUND) {
MFace *mface=psmd->dm->getFaceData(psmd->dm,num,CD_MFACE);
@ -1761,6 +1766,8 @@ static int render_new_particle_system(Render *re, ObjectRen *obr, ParticleSystem
r_tilt=2.0f*cpa->rand[2];
num= cpa->num;
/* get orco */
psys_particle_on_emitter(ob, psmd,
(part->childtype == PART_CHILD_FACES)? PART_FROM_FACE: PART_FROM_PARTICLE,
@ -1831,6 +1838,11 @@ static int render_new_particle_system(Render *re, ObjectRen *obr, ParticleSystem
VECCOPY(snor, surfnor);
}
if(doapproxao && num >= 0) {
int *facenum= RE_strandren_get_face(obr, strand, 1);
*facenum= num;
}
if(uvco){
for(i=0; i<totuv; i++){
if(i != override_uv) {
@ -1930,6 +1942,9 @@ static int render_new_particle_system(Render *re, ObjectRen *obr, ParticleSystem
break;
}
if(doapproxao)
strandbuf->occlusionmesh= cache_occ_mesh(re, obr, psmd->dm, mat);
/* 4. clean up */
if(ma) do_mat_ipo(ma);
@ -3636,13 +3651,18 @@ void init_render_world(Render *re)
if(re->osa)
while(re->wrld.aosamp*re->wrld.aosamp < re->osa)
re->wrld.aosamp++;
if(!(re->r.mode & R_RAYTRACE))
if(!(re->r.mode & R_RAYTRACE) && (re->wrld.ao_gather_method == WO_AOGATHER_RAYTRACE))
re->wrld.mode &= ~WO_AMB_OCC;
}
else {
memset(&re->wrld, 0, sizeof(World));
re->wrld.exp= 0.0;
re->wrld.range= 1.0;
re->wrld.exp= 0.0f;
re->wrld.range= 1.0f;
/* for mist pass */
re->wrld.miststa= re->clipsta;
re->wrld.mistdist= re->clipend-re->clipsta;
re->wrld.misi= 1.0f;
}
re->wrld.linfac= 1.0 + pow((2.0*re->wrld.exp + 0.5), -10);
@ -3870,6 +3890,29 @@ static int render_object_type(int type)
return ELEM5(type, OB_FONT, OB_CURVE, OB_SURF, OB_MESH, OB_MBALL);
}
static void find_dupli_instances(Render *re, ObjectRen *obr)
{
ObjectInstanceRen *obi;
float imat[4][4], obmat[4][4], obimat[4][4], nmat[3][3];
Mat4MulMat4(obmat, obr->ob->obmat, re->viewmat);
Mat4Invert(imat, obmat);
for(obi=re->instancetable.last; obi; obi=obi->prev) {
if(!obi->obr && obi->ob == obr->ob && obi->psysindex == obr->psysindex) {
obi->obr= obr;
/* compute difference between object matrix and
* object matrix with dupli transform, in viewspace */
Mat4CpyMat4(obimat, obi->mat);
Mat4MulMat4(obi->mat, imat, obimat);
Mat3CpyMat4(nmat, obi->mat);
Mat3Inv(obi->imat, nmat);
}
}
}
static void init_render_object_data(Render *re, ObjectRen *obr, int only_verts)
{
Object *ob= obr->ob;
@ -3937,6 +3980,8 @@ static void add_render_object(Render *re, Object *ob, Object *par, int index, in
/* only add instance for objects that have not been used for dupli */
if(!(ob->transflag & OB_RENDER_DUPLI))
RE_addRenderInstance(re, obr, ob, par, index, 0, NULL);
else
find_dupli_instances(re, obr);
}
/* and one render object per particle system */
@ -3950,6 +3995,8 @@ static void add_render_object(Render *re, Object *ob, Object *par, int index, in
/* only add instance for objects that have not been used for dupli */
if(!(ob->transflag & OB_RENDER_DUPLI))
RE_addRenderInstance(re, obr, ob, par, index, psysindex, NULL);
else
find_dupli_instances(re, obr);
}
}
}
@ -4042,6 +4089,7 @@ void RE_Database_Free(Render *re)
if(re->r.mode & R_RAYTRACE) freeraytree(re);
free_sss(re);
free_occ(re);
re->totvlak=re->totvert=re->totstrand=re->totlamp=re->tothalo= 0;
re->i.convertdone= 0;
@ -4070,9 +4118,8 @@ static int allow_render_object(Object *ob, int nolamps, int onlyselected, Object
for(psys=ob->particlesystem.first; psys; psys=psys->next){
part=psys->part;
if((part->draw_as==PART_DRAW_OB && part->dup_ob) || (part->draw_as==PART_DRAW_GR && part->dup_group))
if(part->draw & PART_DRAW_EMITTER)
allow= 1;
if(part->draw & PART_DRAW_EMITTER)
allow= 1;
}
}
@ -4105,22 +4152,30 @@ static void dupli_render_particle_set(Render *re, Object *ob, int level, int ena
Group *group;
GroupObject *go;
ParticleSystem *psys;
DerivedMesh *dm;
if(level >= MAX_DUPLI_RECUR)
return;
if(ob->transflag & OB_DUPLIPARTS) {
DerivedMesh *dm;
for(psys=ob->particlesystem.first; psys; psys=psys->next) {
if(ELEM(psys->part->draw_as, PART_DRAW_OB, PART_DRAW_GR)) {
if(enable)
psys_render_set(ob, psys, re->viewmat, re->winmat, re->winx, re->winy);
else
psys_render_restore(ob, psys);
}
}
for(psys=ob->particlesystem.first; psys; psys=psys->next)
if(enable)
psys_render_set(ob, psys, re->viewmat, re->winmat, re->winx, re->winy);
else
psys_render_restore(ob, psys);
if(enable) {
dm = mesh_create_derived_render(ob, CD_MASK_BAREMESH|CD_MASK_MTFACE|CD_MASK_MCOL);
if(level == 0 && enable) {
/* this is to make sure we get render level duplis in groups:
* the derivedmesh must be created before init_render_mesh,
* since object_duplilist does dupliparticles before that */
dm = mesh_create_derived_render(ob, CD_MASK_BAREMESH|CD_MASK_MTFACE|CD_MASK_MCOL);
dm->release(dm);
for(psys=ob->particlesystem.first; psys; psys=psys->next)
psys_get_modifier(ob, psys)->flag &= ~eParticleSystemFlag_psys_updated;
}
}
@ -4137,7 +4192,7 @@ static void database_init_objects(Render *re, unsigned int lay, int nolamps, int
Object *ob;
ObjectInstanceRen *obi;
Scene *sce;
float mat[4][4], obmat[4][4];
float mat[4][4];
for(SETLOOPER(re->scene, base)) {
ob= base->object;
@ -4151,7 +4206,7 @@ static void database_init_objects(Render *re, unsigned int lay, int nolamps, int
for(SETLOOPER(re->scene, base)) {
ob= base->object;
/* if the object has been restricted from rendering in the outliner, ignore it */
if(ob->restrictflag & OB_RESTRICT_RENDER) continue;
@ -4173,16 +4228,15 @@ static void database_init_objects(Render *re, unsigned int lay, int nolamps, int
for(dob= lb->first; dob; dob= dob->next) {
Object *obd= dob->ob;
Mat4CpyMat4(obmat, obd->obmat);
Mat4CpyMat4(obd->obmat, dob->mat);
/* group duplis need to set ob matrices correct, for deform. so no_draw is part handled */
if(dob->no_draw)
if(!(obd->transflag & OB_RENDER_DUPLI) && dob->no_draw)
continue;
if(obd->restrictflag & OB_RESTRICT_RENDER)
continue;
if(obd->type==OB_MBALL)
continue;
@ -4192,13 +4246,9 @@ static void database_init_objects(Render *re, unsigned int lay, int nolamps, int
if(allow_render_dupli_instance(re, dob, obd)) {
ParticleSystem *psys;
int psysindex;
float imat[4][4], mat[4][4];
/* compute difference between object matrix and
* object matrix with dupli transform, in viewspace */
Mat4Invert(imat, obmat);
MTC_Mat4MulSerie(mat, re->viewmat, dob->mat, imat, re->viewinv, 0, 0, 0, 0);
float mat[4][4];
Mat4MulMat4(mat, dob->mat, re->viewmat);
obi= RE_addRenderInstance(re, NULL, obd, ob, dob->index, 0, mat);
VECCOPY(obi->dupliorco, dob->orco);
obi->dupliuv[0]= dob->uv[0];
@ -4214,8 +4264,6 @@ static void database_init_objects(Render *re, unsigned int lay, int nolamps, int
obd->flag |= OB_DONE;
obd->transflag |= OB_RENDER_DUPLI;
Mat4CpyMat4(obd->obmat, obmat);
}
else
init_render_object(re, obd, ob, dob->index, only_verts);
@ -4277,7 +4325,7 @@ void RE_Database_FromScene(Render *re, Scene *scene, int use_camera_view)
}
init_render_world(re); /* do first, because of ambient. also requires re->osa set correct */
if(re->wrld.mode & WO_AMB_OCC) {
if((re->r.mode & R_RAYTRACE) && (re->wrld.mode & WO_AMB_OCC)) {
if (re->wrld.ao_samp_method == WO_AOSAMP_HAMMERSLEY)
init_render_hammersley(re);
else if (re->wrld.ao_samp_method == WO_AOSAMP_CONSTANT)
@ -4342,10 +4390,16 @@ void RE_Database_FromScene(Render *re, Scene *scene, int use_camera_view)
if(!re->test_break())
project_renderdata(re, projectverto, re->r.mode & R_PANORAMA, 0, 1);
/* Occlusion */
if((re->wrld.mode & WO_AMB_OCC) && !re->test_break())
if(re->wrld.ao_gather_method == WO_AOGATHER_APPROX)
if(re->r.renderer==R_INTERN)
make_occ_tree(re);
/* SSS */
if((re->r.mode & R_SSS) && !re->test_break())
if (re->r.renderer==R_INTERN)
if(re->r.renderer==R_INTERN)
make_sss_tree(re);
}
@ -4825,7 +4879,7 @@ void RE_Database_Baking(Render *re, Scene *scene, int type, Object *actob)
}
init_render_world(re); /* do first, because of ambient. also requires re->osa set correct */
if(re->wrld.mode & WO_AMB_OCC) {
if((re->r.mode & R_RAYTRACE) && (re->wrld.mode & WO_AMB_OCC)) {
if (re->wrld.ao_samp_method == WO_AOSAMP_HAMMERSLEY)
init_render_hammersley(re);
else if (re->wrld.ao_samp_method == WO_AOSAMP_CONSTANT)

File diff suppressed because it is too large Load Diff

@ -331,6 +331,10 @@ static char *get_pass_name(int passtype, int channel)
if(channel==-1) return "IndexOB";
return "IndexOB.X";
}
if(passtype == SCE_PASS_MIST) {
if(channel==-1) return "Mist";
return "Mist.Z";
}
return "Unknown";
}
@ -379,6 +383,9 @@ static int passtype_from_name(char *str)
if(strcmp(str, "IndexOB")==0)
return SCE_PASS_INDEXOB;
if(strcmp(str, "Mist")==0)
return SCE_PASS_MIST;
return 0;
}
@ -538,11 +545,16 @@ static RenderResult *new_render_result(Render *re, rcti *partrct, int crop, int
if(srl->passflag & SCE_PASS_REFRACT)
render_layer_add_pass(rr, rl, 3, SCE_PASS_REFRACT);
}
else if(re->wrld.mode & WO_AMB_OCC)
if(re->wrld.ao_gather_method == WO_AOGATHER_APPROX)
render_layer_add_pass(rr, rl, 3, SCE_PASS_AO);
if(re->r.mode & R_RADIO)
if(srl->passflag & SCE_PASS_RADIO)
render_layer_add_pass(rr, rl, 3, SCE_PASS_RADIO);
if(srl->passflag & SCE_PASS_INDEXOB)
render_layer_add_pass(rr, rl, 1, SCE_PASS_INDEXOB);
if(srl->passflag & SCE_PASS_MIST)
render_layer_add_pass(rr, rl, 1, SCE_PASS_MIST);
}
/* sss, previewrender and envmap don't do layers, so we make a default one */
@ -2010,7 +2022,7 @@ static void renderresult_stampinfo()
RenderResult rres;
/* this is the basic trick to get the displayed float or char rect from render result */
RE_GetResultImage(RE_GetRender(G.scene->id.name), &rres);
BKE_stamp_buf((unsigned char *)rres.rect32, rres.rectf, rres.rectx, rres.recty);
BKE_stamp_buf((unsigned char *)rres.rect32, rres.rectf, rres.rectx, rres.recty, 4);
}
/* ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ */
@ -2335,12 +2347,24 @@ void RE_BlenderAnim(Render *re, Scene *scene, int sfra, int efra)
}
}
} else {
for(scene->r.cfra= sfra;
scene->r.cfra<=efra; scene->r.cfra++) {
re->r.cfra= scene->r.cfra; /* weak.... */
do_render_all_options(re);
for(scene->r.cfra= sfra; scene->r.cfra<=efra; scene->r.cfra++) {
char name[FILE_MAX];
if (scene->r.mode & (R_NO_OVERWRITE | R_TOUCH) ) {
BKE_makepicstring(name, scene->r.pic, scene->r.cfra, scene->r.imtype);
}
if (scene->r.mode & R_NO_OVERWRITE && BLI_exist(name)) {
printf("skipping existing frame \"%s\"\n", name);
continue;
}
if (scene->r.mode & R_TOUCH && !BLI_exist(name)) {
BLI_touch(name);
}
re->r.cfra= scene->r.cfra; /* weak.... */
do_render_all_options(re);
if(re->test_break() == 0) {
do_write_image_or_movie(re, scene, mh);
}

@ -182,7 +182,7 @@ static void render_lighting_halo(HaloRen *har, float *colf)
inp= vn[0]*lv[0] + vn[1]*lv[1] + vn[2]*lv[2];
if(inp>0.0) {
/* testshadowbuf==0.0 : 100% shadow */
shadfac = testshadowbuf(lar->shb, rco, dco, dco, inp);
shadfac = testshadowbuf(lar->shb, rco, dco, dco, inp, 0.0f);
if( shadfac>0.0 ) {
shadfac*= inp*soft*lar->energy;
ir -= shadfac;
@ -219,7 +219,7 @@ static void render_lighting_halo(HaloRen *har, float *colf)
if(i> -0.41) { /* heuristic valua! */
shadfac= 1.0;
if(lar->shb) {
shadfac = testshadowbuf(lar->shb, rco, dco, dco, inp);
shadfac = testshadowbuf(lar->shb, rco, dco, dco, inp, 0.0f);
if(shadfac==0.0) continue;
i*= shadfac;
}

@ -60,6 +60,7 @@
#include "renderpipeline.h"
#include "render_types.h"
#include "renderdatabase.h"
#include "occlusion.h"
#include "pixelblending.h"
#include "pixelshading.h"
#include "shadbuf.h"
@ -399,6 +400,12 @@ static void add_filt_passes(RenderLayer *rl, int curmask, int rectx, int offset,
*fp= (float)shi->obr->ob->index;
}
break;
case SCE_PASS_MIST:
/* */
col= &shr->mist;
pixsize= 1;
break;
case SCE_PASS_VECTOR:
{
/* add minimum speed in pixel, no filter */
@ -477,6 +484,10 @@ static void add_passes(RenderLayer *rl, int offset, ShadeInput *shi, ShadeResult
*fp= (float)shi->obr->ob->index;
}
break;
case SCE_PASS_MIST:
fp= rpass->rect + offset;
*fp= shr->mist;
break;
}
if(col) {
fp= rpass->rect + pixsize*offset;
@ -534,7 +545,11 @@ static void shadeDA_tile(RenderPart *pa, RenderLayer *rl)
/* general shader info, passes */
shade_sample_initialize(&ssamp, pa, rl);
addpassflag= rl->passflag & ~(SCE_PASS_Z|SCE_PASS_COMBINED);
/* occlusion caching */
if(R.occlusiontree)
cache_occ_samples(&R, pa, &ssamp);
/* filtered render, for now we assume only 1 filter size */
if(pa->crop) {
crop= 1;
@ -582,6 +597,9 @@ static void shadeDA_tile(RenderPart *pa, RenderLayer *rl)
if(R.r.mode & R_SHADOW)
ISB_free(pa);
if(R.occlusiontree)
free_occ_samples(&R, pa);
}
/* ************* pixel struct ******** */
@ -1072,6 +1090,9 @@ void zbufshade_tile(RenderPart *pa)
/* irregular shadowb buffer creation */
if(R.r.mode & R_SHADOW)
ISB_create(pa, NULL);
if(R.occlusiontree)
cache_occ_samples(&R, pa, &ssamp);
for(y=pa->disprect.ymin; y<pa->disprect.ymax; y++, rr->renrect.ymax++) {
for(x=pa->disprect.xmin; x<pa->disprect.xmax; x++, ro++, rz++, rp++, fcol+=4, offs++) {
@ -1085,9 +1106,6 @@ void zbufshade_tile(RenderPart *pa)
if(shade_samples(&ssamp, &ps, x, y)) {
QUATCOPY(fcol, ssamp.shr[0].combined);
if(!(fcol[0] == fcol[0]))
printvecf("fudgecol", fcol);
/* passes */
if(addpassflag)
add_passes(rl, offs, ssamp.shi, ssamp.shr);
@ -1098,6 +1116,9 @@ void zbufshade_tile(RenderPart *pa)
if(R.test_break()) break;
}
if(R.occlusiontree)
free_occ_samples(&R, pa);
if(R.r.mode & R_SHADOW)
ISB_free(pa);
}

@ -105,6 +105,7 @@
#define RE_UV_ELEMS 2
#define RE_SURFNOR_ELEMS 3
#define RE_SIMPLIFY_ELEMS 2
#define RE_FACE_ELEMS 1
float *RE_vertren_get_sticky(ObjectRen *obr, VertRen *ver, int verify)
{
@ -408,6 +409,7 @@ int RE_vlakren_get_normal(Render *re, ObjectInstanceRen *obi, VlakRen *vlr, floa
nor[0]= imat[0][0]*xn+imat[0][1]*yn+imat[0][2]*zn;
nor[1]= imat[1][0]*xn+imat[1][1]*yn+imat[1][2]*zn;
nor[2]= imat[2][0]*xn+imat[2][1]*yn+imat[2][2]*zn;
Normalize(nor);
}
else
VECCOPY(nor, vlr->n);
@ -606,6 +608,21 @@ float *RE_strandren_get_simplify(struct ObjectRen *obr, struct StrandRen *strand
return simplify + (strand->index & 255)*RE_SIMPLIFY_ELEMS;
}
int *RE_strandren_get_face(ObjectRen *obr, StrandRen *strand, int verify)
{
int *face;
int nr= strand->index>>8;
face= obr->strandnodes[nr].face;
if(face==NULL) {
if(verify)
face= obr->strandnodes[nr].face= MEM_callocN(256*RE_FACE_ELEMS*sizeof(int), "face table");
else
return NULL;
}
return face + (strand->index & 255)*RE_FACE_ELEMS;
}
/* winspeed is exception, it is stored per instance */
float *RE_strandren_get_winspeed(ObjectInstanceRen *obi, StrandRen *strand, int verify)
{
@ -756,6 +773,8 @@ void free_renderdata_strandnodes(StrandTableNode *strandnodes)
MEM_freeN(strandnodes[a].surfnor);
if(strandnodes[a].simplify)
MEM_freeN(strandnodes[a].simplify);
if(strandnodes[a].face)
MEM_freeN(strandnodes[a].face);
}
MEM_freeN(strandnodes);
@ -1275,34 +1294,9 @@ ObjectInstanceRen *RE_addRenderInstance(Render *re, ObjectRen *obr, Object *ob,
return obi;
}
void find_dupli_objectren(Render *re, ObjectInstanceRen *obi, ObjectInstanceRen *lastobi)
{
ObjectRen *obr;
/* see if last object did the same lookup, so we can just reuse result */
if(lastobi && obi->ob == lastobi->ob && obi->par == lastobi->par && obi->psysindex == lastobi->psysindex) {
obi->obr= lastobi->obr;
return;
}
/* dupli objects are created after object instances, so we look through
* object list to find it */
obr= re->objecttable.first;
while(obr && (obr->ob != obi->ob || obr->par != obi->par || obr->psysindex != obi->psysindex))
obr= obr->next;
if(!obr) {
obr= re->objecttable.first;
while(obr && (obr->ob != obi->ob || obr->psysindex != obi->psysindex) && obr->par == NULL)
obr= obr->next;
}
obi->obr= obr;
}
void RE_makeRenderInstances(Render *re)
{
ObjectInstanceRen *obi, *oldobi, *lastobi= NULL;
ObjectInstanceRen *obi, *oldobi;
ListBase newlist;
int tot;
@ -1316,11 +1310,6 @@ void RE_makeRenderInstances(Render *re)
for(oldobi=re->instancetable.first; oldobi; oldobi=oldobi->next) {
*obi= *oldobi;
if(!obi->obr) {
find_dupli_objectren(re, obi, lastobi);
lastobi= obi;
}
if(obi->obr) {
obi->prev= obi->next= NULL;
BLI_addtail(&newlist, obi);

@ -648,11 +648,11 @@ static float readshadowbuf(ShadBuf *shb, ShadSampleBuf *shsample, int bias, int
/* the externally called shadow testing (reading) function */
/* return 1.0: no shadow at all */
float testshadowbuf(ShadBuf *shb, float *rco, float *dxco, float *dyco, float inp)
float testshadowbuf(ShadBuf *shb, float *rco, float *dxco, float *dyco, float inp, float mat_bias)
{
ShadSampleBuf *shsample;
float fac, co[4], dx[3], dy[3], shadfac=0.0f;
float xs1,ys1, siz, *jit, *weight, xres, yres;
float xs1,ys1, siz, *jit, *weight, xres, yres, biasf;
int xs, ys, zs, bias, *rz;
short a, num;
@ -689,10 +689,12 @@ float testshadowbuf(ShadBuf *shb, float *rco, float *dxco, float *dyco, float in
num= shb->samp*shb->samp;
fac= shb->soft;
if(mat_bias!=0.0f) biasf= shb->bias*mat_bias;
else biasf= shb->bias;
/* with inp==1.0, bias is half the size. correction value was 1.1, giving errors
on cube edges, with one side being almost frontal lighted (ton) */
bias= (1.5f-inp*inp)*shb->bias;
bias= (1.5f-inp*inp)*biasf;
if(num==1) {
for(shsample= shb->buffers.first; shsample; shsample= shsample->next)
shadfac += readshadowbuf(shb, shsample, bias, (int)xs1, (int)ys1, zs);

@ -161,11 +161,16 @@ void shade_input_do_shade(ShadeInput *shi, ShadeResult *shr)
}
/* MIST */
if((R.wrld.mode & WO_MIST) && (shi->mat->mode & MA_NOMIST)==0 ) {
if((shi->passflag & SCE_PASS_MIST) || ((R.wrld.mode & WO_MIST) && (shi->mat->mode & MA_NOMIST)==0)) {
if(R.r.mode & R_ORTHO)
alpha= mistfactor(-shi->co[2], shi->co);
shr->mist= mistfactor(-shi->co[2], shi->co);
else
alpha= mistfactor(VecLength(shi->co), shi->co);
shr->mist= mistfactor(VecLength(shi->co), shi->co);
}
else shr->mist= 0.0f;
if((R.wrld.mode & WO_MIST) && (shi->mat->mode & MA_NOMIST)==0 ) {
alpha= shr->mist;
}
else alpha= 1.0f;
@ -422,7 +427,7 @@ void shade_input_set_strand_texco(ShadeInput *shi, StrandRen *strand, StrandVert
}
if(texco & TEXCO_STRAND) {
shi->strand= spoint->strandco;
shi->strandco= spoint->strandco;
if(shi->osatex) {
shi->dxstrand= spoint->dtstrandco;
@ -935,7 +940,7 @@ void shade_input_set_shade_texco(ShadeInput *shi)
}
if(texco & TEXCO_STRAND) {
shi->strand= (l*v3->accum - u*v1->accum - v*v2->accum);
shi->strandco= (l*v3->accum - u*v1->accum - v*v2->accum);
if(shi->osatex) {
dl= shi->dx_u+shi->dx_v;
shi->dxstrand= dl*v3->accum-shi->dx_u*v1->accum-shi->dx_v*v2->accum;
@ -1236,7 +1241,7 @@ void shade_samples_do_AO(ShadeSample *ssamp)
if(!(R.r.mode & R_SHADOW))
return;
if(!(R.r.mode & R_RAYTRACE))
if(!(R.r.mode & R_RAYTRACE) && !(R.wrld.ao_gather_method == WO_AOGATHER_APPROX))
return;
if(R.wrld.mode & WO_AMB_OCC)
@ -1248,7 +1253,7 @@ void shade_samples_do_AO(ShadeSample *ssamp)
}
static void shade_samples_fill_with_ps(ShadeSample *ssamp, PixStr *ps, int x, int y)
void shade_samples_fill_with_ps(ShadeSample *ssamp, PixStr *ps, int x, int y)
{
ShadeInput *shi;
float xs, ys;

@ -43,6 +43,7 @@
#include "DNA_material_types.h"
/* local include */
#include "occlusion.h"
#include "renderpipeline.h"
#include "render_types.h"
#include "pixelblending.h"
@ -1006,8 +1007,9 @@ static void do_specular_ramp(ShadeInput *shi, float is, float t, float *spec)
/* pure AO, check for raytrace and world should have been done */
void ambient_occlusion(ShadeInput *shi)
{
if((R.r.mode & R_RAYTRACE) && shi->mat->amb!=0.0f)
if((R.wrld.ao_gather_method == WO_AOGATHER_APPROX) && shi->mat->amb!=0.0f)
sample_occ(&R, shi);
else if((R.r.mode & R_RAYTRACE) && shi->mat->amb!=0.0f)
ray_ao(shi, shi->ao);
else
shi->ao[0]= shi->ao[1]= shi->ao[2]= 1.0f;
@ -1017,25 +1019,28 @@ void ambient_occlusion(ShadeInput *shi)
/* wrld mode was checked for */
void ambient_occlusion_to_diffuse(ShadeInput *shi, float *diff)
{
if((R.r.mode & R_RAYTRACE) && shi->mat->amb!=0.0f) {
float f= R.wrld.aoenergy*shi->mat->amb;
if((R.r.mode & R_RAYTRACE) || R.wrld.ao_gather_method == WO_AOGATHER_APPROX) {
if(shi->mat->amb!=0.0f) {
float f= R.wrld.aoenergy*shi->mat->amb;
if (R.wrld.aomix==WO_AOADDSUB) {
diff[0] = 2.0f*shi->ao[0]-1.0f;
diff[1] = 2.0f*shi->ao[1]-1.0f;
diff[2] = 2.0f*shi->ao[2]-1.0f;
if (R.wrld.aomix==WO_AOADDSUB) {
diff[0] = 2.0f*shi->ao[0]-1.0f;
diff[1] = 2.0f*shi->ao[1]-1.0f;
diff[2] = 2.0f*shi->ao[2]-1.0f;
}
else if (R.wrld.aomix==WO_AOSUB) {
diff[0] = shi->ao[0]-1.0f;
diff[1] = shi->ao[1]-1.0f;
diff[2] = shi->ao[2]-1.0f;
}
else {
VECCOPY(diff, shi->ao);
}
VECMUL(diff, f);
}
else if (R.wrld.aomix==WO_AOSUB) {
diff[0] = shi->ao[0]-1.0f;
diff[1] = shi->ao[1]-1.0f;
diff[2] = shi->ao[2]-1.0f;
}
else {
VECCOPY(diff, shi->ao);
}
VECMUL(diff, f);
else
diff[0]= diff[1]= diff[2]= 0.0f;
}
else
diff[0]= diff[1]= diff[2]= 0.0f;
@ -1054,7 +1059,7 @@ void lamp_get_shadow(LampRen *lar, ShadeInput *shi, float inp, float *shadfac, i
if(lar->buftype==LA_SHADBUF_IRREGULAR)
shadfac[3]= ISB_getshadow(shi, lar->shb);
else
shadfac[3] = testshadowbuf(lar->shb, shi->co, shi->dxco, shi->dyco, inp);
shadfac[3] = testshadowbuf(lar->shb, shi->co, shi->dxco, shi->dyco, inp, shi->mat->lbias);
}
else if(lar->mode & LA_SHAD_RAY) {
ray_shadow(shi, lar, shadfac);

@ -59,7 +59,7 @@ void merge_transp_passes(RenderLayer *rl, ShadeResult *shr);
void add_transp_passes(RenderLayer *rl, int offset, ShadeResult *shr, float alpha);
void hoco_to_zco(ZSpan *zspan, float *zco, float *hoco);
void zspan_scanconvert_strand(ZSpan *zspan, void *handle, float *v1, float *v2, float *v3, void (*func)(void *, int, int, float, float, float) );
void zbufsinglewire(ZSpan *zspan, ObjectRen *obr, int zvlnr, float *ho1, float *ho2);
void zbufsinglewire(ZSpan *zspan, int obi, int zvlnr, float *ho1, float *ho2);
int addtosamp_shr(ShadeResult *samp_shr, ShadeSample *ssamp, int addpassflag);
void add_transp_speed(RenderLayer *rl, int offset, float *speed, float alpha, long *rdrect);
void reset_sky_speedvectors(RenderPart *pa, RenderLayer *rl, float *rectf);
@ -458,6 +458,11 @@ static int compare_strand_segment(const void *poin1, const void *poin2)
return 1;
}
static void interpolate_vec1(float *v1, float *v2, float t, float negt, float *v)
{
v[0]= negt*v1[0] + t*v2[0];
}
static void interpolate_vec3(float *v1, float *v2, float t, float negt, float *v)
{
v[0]= negt*v1[0] + t*v2[0];
@ -504,6 +509,8 @@ static void interpolate_shade_result(ShadeResult *shr1, ShadeResult *shr2, float
interpolate_vec3(shr1->refr, shr2->refr, t, negt, shr->refr);
if(addpassflag & SCE_PASS_RADIO)
interpolate_vec3(shr1->rad, shr2->rad, t, negt, shr->rad);
if(addpassflag & SCE_PASS_MIST)
interpolate_vec1(&shr1->mist, &shr2->mist, t, negt, &shr->mist);
}
}
@ -685,6 +692,7 @@ static void strand_shade_point(Render *re, ShadeSample *ssamp, StrandSegment *ss
vlr.flag |= R_TANGENT;
shi->vlr= &vlr;
shi->strand= sseg->strand;
shi->obi= sseg->obi;
shi->obr= sseg->obi->obr;
@ -1057,6 +1065,9 @@ unsigned short *zbuffer_strands_shade(Render *re, RenderPart *pa, RenderLayer *r
if(re->test_break())
break;
if(!(strand->buffer->lay & rl->lay))
continue;
#if 0
if(strand->clip)
continue;

@ -1521,7 +1521,7 @@ void do_material_tex(ShadeInput *shi)
}
else if(mtex->texco==TEXCO_STRAND) {
co= tempvec; dx= dxt; dy= dyt;
co[0]= shi->strand;
co[0]= shi->strandco;
co[1]= co[2]= 0.0f;
dx[0]= shi->dxstrand;
dx[1]= dx[2]= 0.0f;

@ -3346,6 +3346,10 @@ void merge_transp_passes(RenderLayer *rl, ShadeResult *shr)
case SCE_PASS_NORMAL:
col= shr->nor;
break;
case SCE_PASS_MIST:
col= &shr->mist;
pixsize= 1;
break;
case SCE_PASS_VECTOR:
{
@ -3397,6 +3401,7 @@ void add_transp_passes(RenderLayer *rl, int offset, ShadeResult *shr, float alph
for(rpass= rl->passes.first; rpass; rpass= rpass->next) {
float *fp, *col= NULL;
int pixsize= 3;
switch(rpass->passtype) {
case SCE_PASS_RGBA:
@ -3427,13 +3432,19 @@ void add_transp_passes(RenderLayer *rl, int offset, ShadeResult *shr, float alph
case SCE_PASS_NORMAL:
col= shr->nor;
break;
case SCE_PASS_MIST:
col= &shr->mist;
pixsize= 1;
break;
}
if(col) {
fp= rpass->rect + 3*offset;
fp= rpass->rect + pixsize*offset;
fp[0]= alpha*col[0] + (1.0f-alpha)*fp[0];
fp[1]= alpha*col[1] + (1.0f-alpha)*fp[1];
fp[2]= alpha*col[2] + (1.0f-alpha)*fp[2];
if(pixsize==3) {
fp[1]= alpha*col[1] + (1.0f-alpha)*fp[1];
fp[2]= alpha*col[2] + (1.0f-alpha)*fp[2];
}
}
}
}
@ -3595,6 +3606,10 @@ int addtosamp_shr(ShadeResult *samp_shr, ShadeSample *ssamp, int addpassflag)
if(addpassflag & SCE_PASS_RADIO)
addvecmul(samp_shr->rad, shr->rad, fac);
if(addpassflag & SCE_PASS_MIST)
samp_shr->mist= samp_shr->mist+fac*shr->mist;
}
}
}
@ -3775,6 +3790,7 @@ unsigned short *zbuffer_transp_shade(RenderPart *pa, RenderLayer *rl, float *pas
add_transp_speed(rl, od, ssamp.shr[0].winspeed, pass[3], rdrect);
}
else {
float alpha= 0.0f;
short filled, *sp= (short *)(ztramask+od);
/* for each mask-sample we alpha-under colors. then in end it's added using filter */
@ -3797,17 +3813,21 @@ unsigned short *zbuffer_transp_shade(RenderPart *pa, RenderLayer *rl, float *pas
}
}
/* note; cannot use pass[3] for alpha due to filtermask */
for(a=0; a<R.osa; a++) {
add_filt_fmask(1<<a, samp_shr[a].combined, pass, rr->rectx);
alpha+= samp_shr[a].combined[3];
}
if(addpassflag) {
alpha*= sampalpha;
/* merge all in one, and then add */
merge_transp_passes(rl, samp_shr);
add_transp_passes(rl, od, samp_shr, pass[3]);
add_transp_passes(rl, od, samp_shr, alpha);
if(addpassflag & SCE_PASS_VECTOR)
add_transp_speed(rl, od, samp_shr[0].winspeed, pass[3], rdrect);
add_transp_speed(rl, od, samp_shr[0].winspeed, alpha, rdrect);
}
}
}

@ -33,6 +33,7 @@
#include <time.h>
#include <math.h>
#include <stdlib.h>
#include <stddef.h>
#include <string.h>
#ifdef WIN32
@ -3867,6 +3868,43 @@ void do_armbuts(unsigned short event)
}
}
break;
case B_POSEGRP_RECALC:
allqueue(REDRAWVIEW3D, 0);
allqueue(REDRAWBUTSEDIT, 0);
break;
case B_POSEGRP_ADD:
if (ob && ob->pose) {
bPose *pose= ob->pose;
bActionGroup *grp;
grp= MEM_callocN(sizeof(bActionGroup), "PoseGroup");
strcpy(grp->name, "Group");
BLI_addtail(&pose->agroups, grp);
BLI_uniquename(&pose->agroups, grp, "Group", offsetof(bActionGroup, name), 32);
pose->active_group= BLI_countlist(&pose->agroups);
BIF_undo_push("Add Pose Group");
allqueue(REDRAWBUTSEDIT, 0);
allqueue(REDRAWVIEW3D, 0);
}
break;
case B_POSEGRP_REMOVE:
if (ob && ob->pose && ob->pose->active_group) {
bPose *pose= ob->pose;
bActionGroup *grp= NULL;
grp= BLI_findlink(&pose->agroups, pose->active_group-1);
if (grp) {
BLI_freelinkN(&pose->agroups, grp);
pose->active_group= 0;
}
BIF_undo_push("Remove Pose Group");
allqueue(REDRAWBUTSEDIT, 0);
allqueue(REDRAWVIEW3D, 0);
}
break;
}
}
@ -4297,6 +4335,37 @@ static int ob_arm_bone_pchan_lock(Object *ob, bArmature *arm, Bone *bone, bPoseC
return 0;
}
static char *build_posegroups_menustr(bPose *pose)
{
DynStr *pupds= BLI_dynstr_new();
bActionGroup *agrp;
char *str;
char buf[16];
int i;
/* add title first (and the "none" entry) */
BLI_dynstr_append(pupds, "Pose Group%t|");
BLI_dynstr_append(pupds, "BG: [None]%x0");
/* loop through markers, adding them */
for (agrp= pose->agroups.first, i=1; agrp; agrp=agrp->next, i++) {
BLI_dynstr_append(pupds, "BG: ");
BLI_dynstr_append(pupds, agrp->name);
sprintf(buf, "%%x%d", i);
BLI_dynstr_append(pupds, buf);
if (agrp->next)
BLI_dynstr_append(pupds, "|");
}
/* convert to normal MEM_malloc'd string */
str= BLI_dynstr_get_cstring(pupds);
BLI_dynstr_free(pupds);
return str;
}
static void editing_panel_pose_bones(Object *ob, bArmature *arm)
{
uiBlock *block;
@ -4305,6 +4374,7 @@ static void editing_panel_pose_bones(Object *ob, bArmature *arm)
Bone *curBone;
int by, a;
int index, zerodof, zerolimit;
char *menustr;
/* Draw the bone name block */
block= uiNewBlock(&curarea->uiblocks, "editing_panel_pose_bones", UI_EMBOSS, UI_HELV, curarea->win);
@ -4320,19 +4390,23 @@ static void editing_panel_pose_bones(Object *ob, bArmature *arm)
for (pchan=ob->pose->chanbase.first, index=0; pchan; pchan=pchan->next, index++){
curBone= pchan->bone;
if ((curBone->flag & BONE_SELECTED) && (curBone->layer & arm->layer)) {
if(ob_arm_bone_pchan_lock(ob, arm, curBone, pchan))
uiDefBut(block, LABEL, 0, "Proxy Locked", 160, 180,150,18, NULL, 1, 0, 0, 0, "");
/* Bone naming button */
/* Bone naming button */
uiBlockBeginAlign(block);
but=uiDefBut(block, TEX, REDRAWVIEW3D, "BO:", -10,by,117,19, curBone->name, 0, 24, 0, 0, "Change the bone name");
uiButSetFunc(but, validate_posebonebutton_cb, curBone, NULL);
uiButSetCompleteFunc(but, autocomplete_bone, (void *)ob);
/* Dist and weight buttons */
uiDefButF(block, NUM,B_ARM_RECALCDATA, "Dist:", 107, by, 105, 19, &curBone->dist, 0.0, 1000.0, 10.0, 0.0, "Bone deformation distance");
uiDefButF(block, NUM,B_ARM_RECALCDATA, "Weight:", 220, by, 110, 19, &curBone->weight, 0.0F, 1000.0F, 10.0F, 0.0F, "Bone deformation weight");
/* Bone custom drawing */
menustr= build_posegroups_menustr(ob->pose);
uiDefButS(block, MENU,REDRAWVIEW3D, menustr, 107,by,105,19, &pchan->agrp_index, 0.0, 0.0, 0.0, 0.0, "Change the Pose Group this Bone belongs to");
MEM_freeN(menustr);
ob_arm_bone_pchan_lock(ob, arm, curBone, pchan);
uiDefIDPoinBut(block, test_obpoin_but, ID_OB, REDRAWVIEW3D, "OB:", 220,by,110,19, &pchan->custom, "Object that defines custom draw type for this Bone");
ob_arm_bone_pchan_lock(ob, arm, curBone, NULL);
/* Segment, ease in/out buttons */
uiBlockBeginAlign(block);
@ -4345,9 +4419,7 @@ static void editing_panel_pose_bones(Object *ob, bArmature *arm)
uiDefButBitI(block, TOG, BONE_NO_SCALE, B_ARM_RECALCDATA, "S", 70,by-38,20,19, &curBone->flag, 1.0, 32.0, 0.0, 0.0, "Don't inherit scale from parent Bone");
uiDefButBitI(block, TOGN, BONE_NO_DEFORM, B_ARM_RECALCDATA, "Deform", 90, by-38, 80, 19, &curBone->flag, 0.0, 0.0, 0.0, 0.0, "Indicate if Bone deforms geometry");
uiDefButBitI(block, TOG, BONE_MULT_VG_ENV, B_ARM_RECALCDATA, "Mult", 170,by-38,80,19, &curBone->flag, 1.0, 32.0, 0.0, 0.0, "Multiply Bone Envelope with VertexGroup");
ob_arm_bone_pchan_lock(ob, arm, curBone, pchan);
uiDefIDPoinBut(block, test_obpoin_but, ID_OB, REDRAWVIEW3D, "OB:", 250,by-38,80,19, &pchan->custom, "Object that defines custom draw type for this Bone");
ob_arm_bone_pchan_lock(ob, arm, curBone, NULL);
uiDefButBitI(block, TOG, BONE_MULT_VG_ENV, B_ARM_RECALCDATA, "Hide", 250,by-38,80,19, &curBone->flag, 1.0, 32.0, 0.0, 0.0, "Toggles display of this bone in Edit Mode");
/* layers */
uiBlockBeginAlign(block);
@ -4995,6 +5067,22 @@ char *get_vertexgroup_menustr(Object *ob)
return menustr;
}
static void verify_poselib_posename(void *arg1, void *arg2)
{
bAction *act= (bAction *)arg1;
TimeMarker *marker= (TimeMarker *)arg2;
BLI_uniquename(&act->markers, marker, "Pose", offsetof(TimeMarker, name), 64);
}
static void verify_posegroup_groupname(void *arg1, void *arg2)
{
bPose *pose= (bPose *)arg1;
bActionGroup *grp= (bActionGroup *)arg2;
BLI_uniquename(&pose->agroups, grp, "Group", offsetof(bActionGroup, name), 32);
}
static void editing_panel_links(Object *ob)
{
uiBlock *block;
@ -5081,10 +5169,14 @@ static void editing_panel_links(Object *ob)
if (ob->type==OB_ARMATURE) {
if ((ob->pose) && (ob->flag & OB_POSEMODE) && (G.obedit != ob)) {
bAction *act= ob->poselib;
bPose *pose= ob->pose;
int count;
char *menustr;
/* PoseLib settings for armature reside on the left */
xco= 143;
uiDefBut(block, LABEL,0, "Pose Library (Action):", xco, 154, 200, 20, 0, 0, 0, 0, 0, "");
uiDefBut(block, LABEL,0, "Pose Library:", xco, 154, 200, 20, 0, 0, 0, 0, 0, "");
/* PoseLib Action */
uiBlockSetCol(block, TH_BUT_SETTING2);
@ -5093,20 +5185,23 @@ static void editing_panel_links(Object *ob)
uiDefBut(block, BUT, B_POSELIB_VALIDATE, "Auto-Sync PoseLib", xco,110,160,20, 0, 0, 0, 0, 0, "Syncs the current PoseLib with the poses available");
/* poselib pose editing controls */
if ((act) && (act->markers.first)) {
TimeMarker *marker= poselib_get_active_pose(act);
int count= BLI_countlist(&act->markers);
char *menustr= poselib_build_poses_menu(act, "PoseLib Poses");
/* PoseLib - Pose editing controls */
if (act) {
uiBlockBeginAlign(block);
/* currently 'active' pose */
uiDefButI(block, MENU, B_POSELIB_APPLYP, menustr, xco, 85,18,20, &act->active_marker, 1, count, 0, 0, "Browses Poses in Pose Library. Applies chosen pose.");
MEM_freeN(menustr);
if (act->active_marker) {
uiDefBut(block, TEX, REDRAWBUTSEDIT,"", xco+18,85,160-18-20,20, marker->name, 0, 63, 0, 0, "Displays current Pose Library Pose name. Click to change.");
uiDefIconBut(block, BUT, B_POSELIB_REMOVEP, VICON_X, xco+160-20, 85, 20, 20, NULL, 0.0, 0.0, 0.0, 0.0, "Remove this Pose Library Pose from Pose Library.");
if (act->markers.first) {
count= BLI_countlist(&act->markers);
menustr= poselib_build_poses_menu(act, "PoseLib Poses");
uiDefButI(block, MENU, B_POSELIB_APPLYP, menustr, xco, 85,18,20, &act->active_marker, 1, count, 0, 0, "Browses Poses in Pose Library. Applies chosen pose.");
MEM_freeN(menustr);
if (act->active_marker) {
TimeMarker *marker= poselib_get_active_pose(act);
but= uiDefBut(block, TEX, REDRAWBUTSEDIT,"", xco+18,85,160-18-20,20, marker->name, 0, 63, 0, 0, "Displays current Pose Library Pose name. Click to change.");
uiButSetFunc(but, verify_poselib_posename, act, marker);
uiDefIconBut(block, BUT, B_POSELIB_REMOVEP, VICON_X, xco+160-20, 85, 20, 20, NULL, 0.0, 0.0, 0.0, 0.0, "Remove this Pose Library Pose from Pose Library.");
}
}
/* add new poses */
@ -5114,6 +5209,38 @@ static void editing_panel_links(Object *ob)
uiDefBut(block, BUT, B_POSELIB_REPLACEP, "Replace Pose", xco+80,65,80,20, 0, 0, 0, 0, 0, "Replace existing PoseLib Pose with current pose");
uiBlockEndAlign(block);
}
/* Action Groups settings for armature reside on the right */
xco= 315;
uiDefBut(block, LABEL,0, "Bone Groups:", xco, 154, 140, 20, 0, 0, 0, 0, 0, "");
/* add new group */
uiDefBut(block, BUT, B_POSEGRP_ADD, "Add Group", xco,130,140,20, 0, 0, 0, 0, 0, "Add a new Pose Group for the Pose");
if (pose->agroups.first) {
uiBlockBeginAlign(block);
/* currently 'active' group - browse groups */
count= BLI_countlist(&pose->agroups);
menustr= build_posegroups_menustr(pose);
uiDefButI(block, MENU, B_POSEGRP_RECALC, menustr, xco, 85,18,20, &pose->active_group, 1, count, 0, 0, "Browses Pose Groups available for Armature. Click to change.");
MEM_freeN(menustr);
if (pose->active_group) {
bActionGroup *grp= (bActionGroup *)BLI_findlink(&pose->agroups, pose->active_group-1);
/* active group */
but= uiDefBut(block, TEX, REDRAWBUTSEDIT,"", xco+18,85,140-18-20,20, grp->name, 0, 63, 0, 0, "Displays current Pose Group name. Click to change.");
uiButSetFunc(but, verify_posegroup_groupname, pose, grp);
uiDefIconBut(block, BUT, B_POSEGRP_REMOVE, VICON_X, xco+140-20, 85, 20, 20, NULL, 0.0, 0.0, 0.0, 0.0, "Remove this Pose Group");
/* set custom color set */
uiDefButI(block, MENU,B_POSEGRP_RECALC, "Custom Color Set%t|GrpCol: [None]%x0", xco,65,140,19, &grp->customCol, 0.0, 0.0, 0.0, 0.0, "Set of Custom Colors to shade Group's bones with. (NOT YET FUNCTIONAL)");
}
uiBlockEndAlign(block);
}
}
return;
}

@ -2352,7 +2352,7 @@ static void group_ob_rem(void *gr_v, void *ob_v)
Object *ob= OBACT;
rem_from_group(gr_v, ob);
if(find_group(ob)==NULL) {
if(find_group(ob, NULL)==NULL) {
ob->flag &= ~OB_FROMGROUP;
BASACT->flag &= ~OB_FROMGROUP;
}
@ -2496,19 +2496,25 @@ static void object_panel_anim(Object *ob)
uiDefButI(block, NUM, REDRAWVIEW3D, "DupOn:", 170,85,146,19, &ob->dupon, 1.0, 1500.0, 0, 0, "Specify the number of frames to use between DupOff frames");
uiDefButI(block, NUM, REDRAWVIEW3D, "DupEnd", 24,65,140,19, &ob->dupend, 1.0, 32767, 0, 0, "Specify endframe for Dupliframes");
uiDefButI(block, NUM, REDRAWVIEW3D, "DupOff", 171,65,145,19, &ob->dupoff, 0.0, 1500.0, 0, 0, "Specify recurring frames to exclude from the Dupliframes");
uiBlockBeginAlign(block);
uiDefButBitS(block, TOG, OB_OFFS_OB, REDRAWALL, "Offs Ob", 24,35,56,20, &ob->ipoflag, 0, 0, 0, 0, "Not functional at the moment!");
uiDefButBitS(block, TOG, OB_OFFS_PARENT, REDRAWALL, "Offs Par", 82,35,56,20 , &ob->ipoflag, 0, 0, 0, 0, "Let the timeoffset work on the parent");
uiDefButBitS(block, TOG, OB_OFFS_PARTICLE, REDRAWALL, "Offs Particle", 140,35,103,20, &ob->ipoflag, 0, 0, 0, 0, "Let the timeoffset work on the particle effect");
uiBlockEndAlign(block);
uiBlockBeginAlign(block);
uiDefButF(block, NUM, REDRAWALL, "TimeOffset:", 24,10,115,20, &ob->sf, -MAXFRAMEF, MAXFRAMEF, 100, 0, "Specify an offset in frames");
uiDefBut(block, BUT, B_AUTOTIMEOFS, "Automatic Time", 139,10,104,20, 0, 0, 0, 0, 0, "Generate automatic timeoffset values for all selected frames");
uiDefBut(block, BUT, B_PRINTSPEED, "PrSpeed", 248,10,67,20, 0, 0, 0, 0, 0, "Print objectspeed");
uiDefButF(block, NUM, REDRAWALL, "TimeOffset:", 24,35,115,20, &ob->sf, -MAXFRAMEF, MAXFRAMEF, 100, 0, "Animation offset in frames for ipo's and dupligroup instances");
uiDefBut(block, BUT, B_AUTOTIMEOFS, "Auto", 139,35,34,20, 0, 0, 0, 0, 0, "Assign selected objects a timeoffset within a range, starting from the active object");
uiDefBut(block, BUT, B_OFSTIMEOFS, "Ofs", 173,35,34,20, 0, 0, 0, 0, 0, "Offset selected objects timeoffset");
uiDefBut(block, BUT, B_RANDTIMEOFS, "Rand", 207,35,34,20, 0, 0, 0, 0, 0, "Randomize selected objects timeoffset");
uiDefBut(block, BUT, B_PRINTSPEED, "PrSpeed", 250,35,65,20, 0, 0, 0, 0, 0, "Print objectspeed");
uiBlockEndAlign(block);
uiBlockBeginAlign(block);
uiDefButBitS(block, TOG, OB_OFFS_OB, REDRAWALL, "OfsEdit", 24,10,56,20, &ob->ipoflag, 0, 0, 0, 0, "Use timeoffset when inserting keys and display timeoffset for ipo and action views");
uiDefButBitS(block, TOG, OB_OFFS_PARENT, REDRAWALL, "OfsParent", 82,10,56,20 , &ob->ipoflag, 0, 0, 0, 0, "Apply the timeoffset to this objects parent relationship");
uiDefButBitS(block, TOG, OB_OFFS_PARTICLE, REDRAWALL, "OfsParticle", 140,10,56,20, &ob->ipoflag, 0, 0, 0, 0, "Let the timeoffset work on the particle effect");
uiDefButBitS(block, TOG, OB_OFFS_PARENTADD, REDRAWALL, "AddParent", 196,10,56,20, &ob->ipoflag, 0, 0, 0, 0, "Add the parents timeoffset value");
uiBlockEndAlign(block);
sprintf(str, "%.4f", prspeed);
uiDefBut(block, LABEL, 0, str, 247,35,63,31, NULL, 1.0, 0, 0, 0, "");
uiDefBut(block, LABEL, 0, str, 260,10,63,31, NULL, 1.0, 0, 0, 0, "");
}
@ -2649,6 +2655,12 @@ void do_effects_panels(unsigned short event)
case B_AUTOTIMEOFS:
auto_timeoffs();
break;
case B_OFSTIMEOFS:
ofs_timeoffs();
break;
case B_RANDTIMEOFS:
rand_timeoffs();
break;
case B_FRAMEMAP:
G.scene->r.framelen= G.scene->r.framapto;
G.scene->r.framelen/= G.scene->r.images;
@ -3451,15 +3463,18 @@ static void object_softbodies__enable_psys(void *ob_v, void *psys_v)
#ifdef _work_on_sb_solver
static char sbsolvers[] = "Solver %t|RKP almost SOFT not usable but for some german teachers %x1|STU ip semi implicit euler%x3|SI1 (half step)adaptive semi implict euler %x2|SI2 (use dv)adaptive semi implict euler %x4|SOFT step size controlled midpoint(1rst choice for real softbodies)%x0";
#else
/* SIF would have been candidate .. well lack of time .. brecht is busy .. better make a stable version for peach now :) */
static char sbsolvers[] = "SIF semi implicit euler with fixed step size (worth a try with real stiff egdes)%x3|SOFT step size controlled midpoint(1rst choice for real softbodies)%x0";
#else
static char sbsolvers[] = "SOFT step size controlled midpoint(1rst choice for real softbodies)%x0";
#endif
static void object_softbodies_II(Object *ob)
{
SoftBody *sb=ob->soft;
uiBlock *block;
static int val;
short *softflag=&ob->softflag, psys_cur=0,adaptive_mode;
short *softflag=&ob->softflag, psys_cur=0, adaptive_mode=0;
int ob_has_hair=psys_ob_has_hair(ob);
if(!_can_softbodies_at_all(ob)) return;
/*bah that is ugly! creating missing data members in UI code*/
@ -3546,6 +3561,7 @@ static void object_softbodies_II(Object *ob)
uiBlockBeginAlign(block);
uiDefButS(block, MENU, B_SOFTBODY_CHANGE, sbsolvers,10,100,50,20, &sb->solver_ID, 14.0, 0.0, 0, 0, "Select Solver");
/*some have adapive step size - some not*/
sb->solver_ID = 0; /* ugly hack to prepare peach freeze */
switch (sb->solver_ID) {
case 0:
case 1:
@ -3998,9 +4014,13 @@ static void object_panel_particle_extra(Object *ob)
buty=butx=160;
uiDefButI(block, NUM, B_PART_DISTR, "Seed:", butx,(buty-=buth),butw,buth, &psys->seed, 0.0, 255.0, 1, 0, "Set an offset in the random table");
if(part->type == PART_HAIR && psys->flag & PSYS_EDITED)
uiDefButF(block, NUM, B_PART_RECALC, "Stiff:", butx,(buty-=buth),butw,buth, &part->eff_hair, 0.0, 1.0, 0, 0, "Hair stiffness for effectors");
else
buty-=buth;
/* size changes must create a recalc event always so that sizes are updated properly */
uiDefButF(block, NUM, B_PART_RECALC, "Size:", butx,(buty-=2*buth),butw,buth, &part->size, 0.01, 100, 10, 1, "The size of the particles");
uiDefButF(block, NUM, B_PART_RECALC, "Size:", butx,(buty-=buth),butw,buth, &part->size, 0.01, 100, 10, 1, "The size of the particles");
uiDefButF(block, NUM, B_PART_RECALC, "Rand:", butx,(buty-=buth),butw,buth, &part->randsize, 0.0, 2.0, 10, 1, "Give the particle size a random variation");
uiDefButBitI(block, TOG, PART_SIZEMASS, B_PART_RECALC, "Mass from size", butx,(buty-=buth),butw,buth, &part->flag, 0, 0, 0, 0, "Multiply mass with particle size");

@ -578,27 +578,34 @@ static void seq_panel_editing()
B_SEQ_BUT_TRANSFORM, "Chan",
130, 80, 120, 20, &last_seq->machine,
0.0, MAXSEQ, 0.0, 0.0, "Channel used (Y position)");
if (last_seq->type == SEQ_IMAGE) {
if (check_single_seq(last_seq)) {
uiDefButI(block, NUM,
B_SEQ_BUT_TRANSFORM, "Start-Still",
10, 60, 120, 20, &last_seq->startstill,
0.0, MAXFRAMEF, 0.0, 0.0, "Start still");
uiDefButI(block, NUM,
B_SEQ_BUT_TRANSFORM, "End-Still",
130, 60, 120, 19, &last_seq->endstill,
0.0, MAXFRAMEF, 0.0, 0.0, "End still");
B_SEQ_BUT_TRANSFORM, "End-Still",
130, 60, 120, 19, &last_seq->endstill,
0.0, MAXFRAMEF, 0.0, 0.0, "End still");
} else {
uiDefButI(block, NUM,
B_SEQ_BUT_TRANSFORM, "Start-Ofs",
10, 60, 120, 20, &last_seq->startofs,
0.0, last_seq->len - last_seq->endofs,
0.0, 0.0, "Start offset");
uiDefButI(block, NUM,
B_SEQ_BUT_TRANSFORM, "End-Ofs",
130, 60, 120, 19, &last_seq->endofs,
0.0, last_seq->len - last_seq->startofs,
0.0, 0.0, "End offset");
if (last_seq->type == SEQ_IMAGE) {
uiDefButI(block, NUM,
B_SEQ_BUT_TRANSFORM, "Start-Still",
10, 60, 120, 20, &last_seq->startstill,
0.0, MAXFRAMEF, 0.0, 0.0, "Start still");
uiDefButI(block, NUM,
B_SEQ_BUT_TRANSFORM, "End-Still",
130, 60, 120, 19, &last_seq->endstill,
0.0, MAXFRAMEF, 0.0, 0.0, "End still");
} else {
uiDefButI(block, NUM,
B_SEQ_BUT_TRANSFORM, "Start-Ofs",
10, 60, 120, 20, &last_seq->startofs,
0.0, last_seq->len - last_seq->endofs,
0.0, 0.0, "Start offset");
uiDefButI(block, NUM,
B_SEQ_BUT_TRANSFORM, "End-Ofs",
130, 60, 120, 19, &last_seq->endofs,
0.0, last_seq->len - last_seq->startofs,
0.0, 0.0, "End offset");
}
}
}
@ -1121,6 +1128,8 @@ void do_sequencer_panels(unsigned short event)
break;
case B_SEQ_BUT_TRANSFORM:
calc_sequence(last_seq);
if (test_overlap_seq(last_seq))
shuffle_seq(last_seq);
break;
}
@ -1156,12 +1165,6 @@ static void backbuf_pic(char *name)
BIF_undo_push("Change background picture");
}
static void ftype_pic(char *name)
{
strcpy(G.scene->r.ftype, name);
allqueue(REDRAWBUTSSCENE, 0);
}
static void run_playanim(char *file)
{
extern char bprogname[]; /* usiblender.c */
@ -1260,15 +1263,6 @@ void do_render_panels(unsigned short event)
else
activate_fileselect(FILE_SPECIAL, "SELECT BACKBUF PICTURE", G.scene->r.backbuf, backbuf_pic);
break;
case B_FS_FTYPE:
sa= closest_bigger_area();
areawinset(sa->win);
if(G.qual == LR_CTRLKEY)
activate_imageselect(FILE_SPECIAL, "SELECT FTYPE", G.scene->r.ftype, ftype_pic);
else
activate_fileselect(FILE_SPECIAL, "SELECT FTYPE", G.scene->r.ftype, ftype_pic);
break;
case B_PR_PAL:
G.scene->r.xsch= 720;
@ -1832,7 +1826,6 @@ static void render_panel_output(void)
uiBlock *block;
char *strp;
block= uiNewBlock(&curarea->uiblocks, "render_panel_output", UI_EMBOSS, UI_HELV, curarea->win);
if(uiNewPanel(curarea, block, "Output", "Render", 0, 0, 318, 204)==0) return;
@ -1841,17 +1834,19 @@ static void render_panel_output(void)
uiDefBut(block, TEX,0,"", 31, 190, 279, 20,G.scene->r.pic, 0.0,79.0, 0, 0, "Directory/name to save rendered Pics to");
uiDefIconBut(block, BUT,B_FS_BACKBUF, ICON_FILESEL, 10, 168, 20, 20, 0, 0, 0, 0, 0, "Open Fileselect to get Backbuf image");
uiDefBut(block, TEX,0,"", 31, 168, 279, 20,G.scene->r.backbuf, 0.0,79.0, 0, 0, "Image to use as background for rendering");
uiDefIconBut(block, BUT,B_FS_FTYPE, ICON_FILESEL, 10, 146, 20, 20, 0, 0, 0, 0, 0, "Open Fileselect to get Ftype image");
uiDefBut(block, TEX,0,"", 31, 146, 279, 20,G.scene->r.ftype,0.0,79.0, 0, 0, "Image to use with FTYPE Image type");
uiBlockEndAlign(block);
uiBlockBeginAlign(block);
uiDefButBitI(block, TOG, R_NO_OVERWRITE, B_NOP, "No Overwrite", 10, 142, 90, 20, &G.scene->r.mode, 0.0, 0.0, 0, 0, "Skip rendering frames when the file exists (image output only)");
uiDefButBitI(block, TOG, R_TOUCH, B_NOP, "Touch", 100, 142, 50, 20, &G.scene->r.mode, 0.0, 0.0, 0, 0, "Create an empty file before rendering each frame");
uiBlockEndAlign(block);
/* SET BUTTON */
uiBlockBeginAlign(block);
id= (ID *)G.scene->set;
IDnames_to_pupstring(&strp, NULL, NULL, &(G.main->scene), id, &(G.buts->menunr));
if(strp[0])
uiDefButS(block, MENU, B_SETBROWSE, strp, 10, 120, 20, 20, &(G.buts->menunr), 0, 0, 0, 0, "Scene to link as a Set");
uiDefButS(block, MENU, B_SETBROWSE, strp, 10, 114, 20, 20, &(G.buts->menunr), 0, 0, 0, 0, "Scene to link as a Set");
MEM_freeN(strp);
if(G.scene->set) {
@ -1863,8 +1858,8 @@ static void render_panel_output(void)
uiBlockEndAlign(block);
uiBlockSetCol(block, TH_BUT_SETTING1);
uiDefButBitS(block, TOG, R_BACKBUF, B_NOP,"Backbuf", 10, 94, 80, 20, &G.scene->r.bufflag, 0, 0, 0, 0, "Enable/Disable use of Backbuf image");
uiDefButS(block, NUM, B_NOP, "Threads:", 10, 68, 100, 20, &G.scene->r.threads, 1, BLENDER_MAX_THREADS, 0, 0, "Amount of threads for render (takes advantage of multi-core and multi-processor computers)");
uiDefButBitS(block, TOG, R_BACKBUF, B_NOP,"Backbuf", 10, 89, 80, 20, &G.scene->r.bufflag, 0, 0, 0, 0, "Enable/Disable use of Backbuf image");
uiDefButS(block, NUM, B_NOP, "Threads:", 10, 63, 100, 20, &G.scene->r.threads, 1, BLENDER_MAX_THREADS, 0, 0, "Amount of threads for render (takes advantage of multi-core and multi-processor computers)");
uiBlockSetCol(block, TH_AUTO);
uiBlockBeginAlign(block);
@ -1878,20 +1873,18 @@ static void render_panel_output(void)
uiDefButS(block, MENU, B_REDR, "Render Display %t|Render Window %x1|Image Editor %x0|Full Screen %x2",
72, 10, 120, 19, &G.displaymode, 0.0, (float)R_DISPLAYWIN, 0, 0, "Sets render output display");
uiDefButBitS(block, TOG, R_EXTENSION, B_NOP, "Extensions", 205, 10, 105, 19, &G.scene->r.scemode, 0.0, 0.0, 0, 0, "Adds filetype extensions to the filename when rendering animations");
/* Dither control */
uiDefButF(block, NUM,B_DIFF, "Dither:", 205,31,105,19, &G.scene->r.dither_intensity, 0.0, 2.0, 0, 0, "The amount of dithering noise present in the output image (0.0 = no dithering)");
/* Toon shading buttons */
uiBlockBeginAlign(block);
uiDefButBitI(block, TOG, R_EDGE, B_NOP,"Edge", 100, 94, 70, 20, &G.scene->r.mode, 0, 0, 0, 0, "Enable Toon Edge-enhance");
uiDefBlockBut(block, edge_render_menu, NULL, "Edge Settings", 170, 94, 140, 20, "Display Edge settings");
uiDefButBitI(block, TOG, R_EDGE, B_NOP,"Edge", 100, 89, 70, 20, &G.scene->r.mode, 0, 0, 0, 0, "Enable Toon Edge-enhance");
uiDefBlockBut(block, edge_render_menu, NULL, "Edge Settings", 170, 89, 140, 20, "Display Edge settings");
uiBlockEndAlign(block);
uiBlockBeginAlign(block);
uiDefButBitS(block, TOG, R_NO_TEX, B_NOP, "Disable Tex", 115, 68, 70, 20, &G.scene->r.scemode, 0.0, 0.0, 0, 0, "Disables Textures for render");
uiDefButBitS(block, TOG, R_FREE_IMAGE, B_NOP, "Free Tex Images", 205, 68, 100, 20, &G.scene->r.scemode, 0.0, 0.0, 0, 0, "Frees all Images used by Textures after each render");
uiDefButBitS(block, TOG, R_NO_TEX, B_NOP, "Disable Tex", 115, 63, 70, 20, &G.scene->r.scemode, 0.0, 0.0, 0, 0, "Disables Textures for render");
uiDefButBitS(block, TOG, R_FREE_IMAGE, B_NOP, "Free Tex Images", 205, 63, 100, 20, &G.scene->r.scemode, 0.0, 0.0, 0, 0, "Frees all Images used by Textures after each render");
uiBlockEndAlign(block);
}
@ -2650,7 +2643,8 @@ static void render_panel_layers(void)
uiDefButBitI(block, TOG, SCE_PASS_VECTOR, B_SET_PASS,"Vec", 120, 30, 40, 20, &srl->passflag, 0, 0, 0, 0, "Deliver Speed Vector pass");
uiDefButBitI(block, TOG, SCE_PASS_NORMAL, B_SET_PASS,"Nor", 160, 30, 40, 20, &srl->passflag, 0, 0, 0, 0, "Deliver Normal pass");
uiDefButBitI(block, TOG, SCE_PASS_UV, B_SET_PASS,"UV", 200, 30, 40, 20, &srl->passflag, 0, 0, 0, 0, "Deliver Texture UV pass");
uiDefButBitI(block, TOG, SCE_PASS_INDEXOB, B_SET_PASS,"IndexOb",240, 30, 70, 20, &srl->passflag, 0, 0, 0, 0, "Deliver Object Index pass");
uiDefButBitI(block, TOG, SCE_PASS_MIST, B_SET_PASS,"Mist", 240, 30, 35, 20, &srl->passflag, 0, 0, 0, 0, "Deliver Mist factor pass (0-1)");
uiDefButBitI(block, TOG, SCE_PASS_INDEXOB, B_SET_PASS,"Index", 275, 30, 35, 20, &srl->passflag, 0, 0, 0, 0, "Deliver Object Index pass");
uiDefButBitI(block, TOG, SCE_PASS_RGBA, B_SET_PASS,"Col", 10, 10, 35, 20, &srl->passflag, 0, 0, 0, 0, "Deliver shade-less Color pass");
uiDefButBitI(block, TOG, SCE_PASS_DIFFUSE, B_SET_PASS,"Diff", 45, 10, 35, 20, &srl->passflag, 0, 0, 0, 0, "Deliver Diffuse pass");

Some files were not shown because too many files have changed in this diff Show More