#include <stdarg.h> //va_args\r
#include <stdint.h> //uint64_t\r
#include <string.h> //memset, str*\r
+#include <errno.h>\r
/* Unicode */\r
#include <unistd.h> //u8_* functions\r
#include <unitypes.h> //uint8_t as a char\r
#include <unistr.h> //u32_cpy\r
#include <unistdio.h> //ulc_fprintf\r
/* Local */\r
+#define eprintf_callback(...) exit(EXIT_FAILURE)\r
#include "print.h"\r
#include "apc.h"\r
#include "ir.h"\r
-#undef do_error\r
-#define do_error(...) exit(-1)\r
+#include "pagenode.h"\r
+#define XXH_PRIVATE_API\r
+#include "../xxHash/xxhash.h"\r
/* Public */\r
int ir_init(void);\r
void ir_quit(void);\r
+void ir_test(void);\r
int ir_linker(void);\r
int ir_condenser(void);\r
-/* Memory allocation structures */\r
-struct pagenode_t;\r
-struct pagenode_header_t {\r
- struct pagenode_t* next;\r
- char* head;\r
-};\r
-struct pagenode_t {\r
- struct pagenode_header_t header;\r
- char root[];\r
-};\r
-struct pagelist_t {\r
- struct pagenode_t* root, * head;\r
- size_t pagesize;\r
-};\r
-#define DATA_PAGESIZE (sys_pagesize)\r
-#define NAME_PAGESIZE (APC_NAME_MAX * 1024)\r
-#define PL_HEADERSIZE (sizeof(struct pagenode_header_t))\r
-#define PL_HEADSIZE(_PL) (_PL.head->header.head - _PL.head->root)\r
-#define PL_HEADMEM(_PL) (_PL.pagesize - PL_HEADERSIZE - PL_HEADSIZE(_PL))\r
/* Set data mem */\r
enum dtype { FSDAT, MSDAT, ADAT, LDAT, FBDAT };\r
+struct ir_facinglist_t;\r
+struct ir_facinglist_t\r
+{ struct ir_facinglist_t* nextsib;\r
+ apc_facing facing;\r
+};\r
struct ir_namelist_t;\r
struct ir_namelist_t\r
{ struct ir_namelist_t* nextsib;\r
};\r
struct ir_setld_t\r
{ struct ir_classld_t* classld;\r
- long long ref;\r
+ uint32_t ref;\r
struct ir_namelist_t* namelist, * namelist_head;\r
};\r
struct ir_setdata_header_t\r
{ enum dtype type;\r
uint8_t* src_filename, * data_name;\r
union ir_setdata_t* nextsib;\r
+ long filepos;\r
};\r
-struct ir_frameinfo_t\r
-{ int facing, w, h; };\r
struct ir_framedata_t\r
{ struct ir_setdata_header_t header;\r
- struct ir_frameinfo_t frameinfo;\r
+ apc_facing facing;\r
+ int w, h;\r
+ struct ir_facinglist_t* mirrorlist,* nextmirror;\r
};\r
struct ir_framebox_t\r
{ struct ir_setdata_header_t header;\r
struct ir_simplex_t { struct ir_setdata_header_t header; };\r
struct ir_link_t\r
{ struct ir_setdata_header_t header;\r
- struct ir_classld_t* classld;\r
struct ir_setld_t* setld;\r
+ struct ir_set_t* trg_set;\r
+ uint8_t* dlink;\r
enum ltype type;\r
};\r
union ir_setdata_t\r
{ struct ir_class_t* nextchild, * nextsib;\r
struct ir_set_t* root_set;\r
uint8_t* name;\r
+ long filepos;\r
};\r
struct ir_set_t\r
{ struct ir_set_t* nextchild, * nextsib;\r
- struct ir_class_t* class;\r
- long long ref;\r
+ uint32_t ref;\r
uint8_t* name;\r
struct ir_framebox_t* frameboxes;\r
struct ir_simplex_t* audio;\r
struct ir_link_t* links;\r
+ long filepos;\r
};\r
/* Functions */\r
static inline\r
-struct ir_framebox_t* ir_set_add_framebox(struct ir_set_t*,const uint8_t*);\r
+struct ir_framebox_t* ir_set_add_framebox(struct ir_set_t*,uint8_t*);\r
static inline\r
-union ir_setdata_t* ir_framedata (enum dtype,const uint8_t*,apc_facing,int,int);\r
+union ir_setdata_t* ir_framedata (enum dtype,const uint8_t*,facinglist,int,int);\r
static inline\r
-int init_pagelist(struct pagelist_t*,size_t);\r
-static\r
-void ir_free_pagenodes(struct pagenode_t*);\r
+void ir_linkdata_resolve_set(union ir_setdata_t*);\r
static inline\r
int bytes_identical(const uint8_t*,const uint8_t*);\r
static inline\r
int classnames_identical(const uint8_t*,const uint8_t*);\r
static\r
-void* stack_alloc(size_t);\r
-#define struct_alloc(_T) ((struct _T*) stack_alloc(sizeof(struct _T)))\r
-static\r
uint8_t* name_alloc(const uint8_t*);\r
static\r
uint8_t* classname_alloc(const uint8_t*);\r
+#define struct_clear(_S) (memset((_S), 0, sizeof(*(_S))))\r
+#define REFHASH(ref) (XXH32(&ref, sizeof(uint32_t), 0xCEED) & 0xCFF)\r
+#define struct_alloc(_T) ((struct _T*) stack_alloc(&datapages, sizeof(struct _T)))\r
extern //apc.c\r
long sys_pagesize;\r
+extern //apc.c\r
+char* apc_package_name;\r
static\r
-struct pagelist_t datapages, namepages;\r
+struct pagelist_t datapages, namepages, refhashpages;\r
static\r
-struct ir_class_t root_class = { .name = (uint8_t*)"." };\r
+struct ir_class_t root_class;\r
\r
/* Init */\r
int ir_init\r
( void )\r
-{ if (init_pagelist(&datapages, (size_t)DATA_PAGESIZE))\r
- eprintf("Memory allocation error\n");\r
- if (init_pagelist(&namepages, (size_t)NAME_PAGESIZE))\r
- eprintf("Memory allocation error\n");\r
+{ pagelist_init(datapages, (size_t)SYS_PAGESIZE);\r
+ pagelist_init(namepages, (size_t)NAME_PAGESIZE);\r
+ pagelist_init(refhashpages, (size_t)SYS_PAGESIZE);\r
+ root_class.name = (uint8_t*) apc_package_name;\r
return 0;\r
}\r
\r
-static inline\r
-int init_pagelist\r
-( struct pagelist_t* pl,\r
- size_t size\r
-)\r
-{ pl->pagesize = size;\r
- pl->root = (struct pagenode_t*) calloc(size,1);\r
- if (pl->root == NULL)\r
- return -1;\r
- pl->root->header.head = pl->root->root;\r
- pl->head = pl->root;\r
- return 0;\r
-}\r
-\r
-/* Quit/Cleanup\r
- Recursively clean pagenode linked list\r
-*/\r
+/* Quit/Cleanup */\r
void ir_quit\r
( void )\r
-{ ir_free_pagenodes(datapages.root);\r
- ir_free_pagenodes(namepages.root);\r
-}\r
+{ pagenode_free(datapages.root);\r
+ pagenode_free(namepages.root);\r
+ pagenode_free(refhashpages.root);\r
\r
-static\r
-void ir_free_pagenodes\r
-( struct pagenode_t* pagenode )\r
-{ if (pagenode->header.next != NULL)\r
- ir_free_pagenodes(pagenode->header.next);\r
- free(pagenode);\r
}\r
\r
-/* Link\r
-*/\r
+/* Link */\r
int ir_linker\r
( void )\r
-{ return 0; }\r
+{ \r
+ return 0;\r
+}\r
\r
-/* Condense\r
-*/\r
+/* Condense */\r
int ir_condenser\r
( void )\r
{ return 0; }\r
)\r
{ struct ir_class_t* iter;\r
if (class->nextchild == NULL)\r
- goto alloc;\r
+ { class->nextchild = struct_alloc(ir_class_t);\r
+ struct_clear(class->nextchild);\r
+ class->nextchild->name = classname_alloc(name);\r
+ return class->nextchild;\r
+ }\r
iter = class->nextchild;\r
if (iter->name == NULL)\r
eprintf("Null name pointer in class %p\n", iter);\r
{ iter = iter->nextsib;\r
goto check;\r
}\r
- alloc:\r
- iter = struct_alloc(ir_class_t);\r
- iter->nextsib = class->nextchild;\r
- iter->name = classname_alloc(name);\r
- return class->nextchild = iter;\r
+ iter->nextsib = struct_alloc(ir_class_t);\r
+ struct_clear(iter->nextsib);\r
+ iter->nextsib->name = classname_alloc(name);\r
+ return iter->nextsib;\r
}\r
\r
/* Add a set to a class\r
)\r
{ struct ir_set_t* iter;\r
if (class->root_set == NULL)\r
- goto alloc;\r
+ { class->root_set = struct_alloc(ir_set_t);\r
+ struct_clear(class->root_set);\r
+ class->root_set->name = name_alloc(name);\r
+ return class->root_set;\r
+ }\r
iter = class->root_set;\r
if (iter->name == NULL)\r
eprintf("Null name pointer in class %p\n", iter);\r
{ iter = iter->nextsib;\r
goto check;\r
}\r
- alloc:\r
- iter = struct_alloc(ir_set_t);\r
- iter->nextsib = class->root_set;\r
- iter->name = name_alloc(name);\r
- return class->root_set = iter;\r
+ iter->nextsib = struct_alloc(ir_set_t);\r
+ struct_clear(iter->nextsib);\r
+ iter->nextsib->name = name_alloc(name);\r
+ return iter->nextsib;\r
+}\r
+\r
+/* Get the root set of the class */\r
+struct ir_set_t* ir_class_rootset\r
+( struct ir_class_t* class )\r
+{ return class->root_set; }\r
+\r
+struct ir_set_t* ir_set_from_ref\r
+( uint32_t ref )\r
+{ uint16_t hash;\r
+ struct ir_set_t** iters;\r
+ struct pagenode_t* iterp;\r
+ iterp = refhashpages.root;\r
+ hash = REFHASH(ref);\r
+ do\r
+ iters = ((struct ir_set_t**) iterp->root) + hash;\r
+ while (*iters != NULL && (*iters)->ref != ref && (iterp = iterp->header.next) != NULL);\r
+ return *iters;\r
}\r
\r
+\r
/* Add a set to a set\r
Attempts to create a new subset of the specified set, returning the\r
child if it already exists\r
)\r
{ struct ir_set_t* iter;\r
if (set->nextchild == NULL)\r
- goto alloc;\r
+ { set->nextchild = struct_alloc(ir_set_t);\r
+ struct_clear(set->nextchild);\r
+ set->nextchild->name = name_alloc(name);\r
+ return set->nextchild;\r
+ }\r
iter = set->nextchild;\r
- if (iter->name == NULL)\r
- eprintf("Null name pointer in set %p\n", iter);\r
if (name == NULL)\r
eprintf("Null child added to set %s\n", iter->name);\r
+ if (iter->name == NULL)\r
+ eprintf("Null name pointer in set %p\n", iter);\r
check:\r
if (bytes_identical(iter->name, name))\r
return iter;\r
{ iter = iter->nextsib;\r
goto check;\r
}\r
- alloc:\r
- iter = struct_alloc(ir_set_t);\r
- iter->nextsib = set->nextchild;\r
- iter->name = name_alloc(name);\r
- return set->nextchild = iter;\r
+ iter->nextsib = struct_alloc(ir_set_t);\r
+ struct_clear(iter->nextsib);\r
+ iter->nextsib->name = name_alloc(name);\r
+ return iter->nextsib;\r
}\r
\r
/* Add a framebox to a set\r
Attempts to create a new framebox of the specified set, returning\r
the framebox if it already exists\r
+ Name is not allocated, but assigned, unlike other "XXX_add" functions where\r
+ name is duplicated into IR's internal array.\r
*/\r
static inline\r
struct ir_framebox_t* ir_set_add_framebox\r
( struct ir_set_t* set,\r
- const uint8_t* name\r
+ uint8_t* name\r
)\r
{ struct ir_framebox_t* iter;\r
if (set->frameboxes == NULL)\r
- goto alloc;\r
+ { set->frameboxes = struct_alloc(ir_framebox_t);\r
+ struct_clear(set->frameboxes);\r
+ set->frameboxes->header.data_name = name;\r
+ return set->frameboxes;\r
+ }\r
iter = set->frameboxes;\r
check:\r
if (bytes_identical(iter->header.data_name, name))\r
{ iter = (struct ir_framebox_t*) iter->header.nextsib;\r
goto check;\r
}\r
- alloc:\r
- iter = struct_alloc(ir_framebox_t);\r
- iter->header.nextsib = (union ir_setdata_t*) set->frameboxes;\r
- iter->header.data_name = name_alloc(name);\r
- return set->frameboxes = iter;\r
+ iter->header.nextsib = (union ir_setdata_t*) struct_alloc(ir_framebox_t);\r
+ struct_clear(iter->header.nextsib);\r
+ iter->header.nextsib->header.data_name = name;\r
+ return (struct ir_framebox_t*) (iter->header.nextsib);\r
}\r
\r
/* Match two null-terminated bytestrings\r
return (ca == cb);\r
}\r
\r
-/* Assign Setdata to Set\r
+/* Return the name of the set */\r
+uint8_t* ir_set_name\r
+( struct ir_set_t* set)\r
+{ return set->name; }\r
\r
- */\r
+/* Return the next sib of the class */\r
+struct ir_class_t* ir_class_nextsib\r
+( struct ir_class_t* class )\r
+{ return class->nextsib; }\r
+\r
+/* Return the next sib of the class */\r
+struct ir_class_t* ir_class_nextchild\r
+( struct ir_class_t* class )\r
+{ return class->nextchild; }\r
+\r
+/* Get the file position of the class */\r
+long ir_class_fpos\r
+( struct ir_class_t* class )\r
+{ return class->filepos; }\r
+\r
+/* Set the file position of the class */\r
+void ir_class_assign_fpos\r
+( struct ir_class_t* class,\r
+ long newpos\r
+)\r
+{ class->filepos = newpos; }\r
+\r
+/* Get the next sibling of the provided set */\r
+struct ir_set_t* ir_set_nextsib\r
+( struct ir_set_t* set )\r
+{ return set->nextsib; }\r
+\r
+/* Get the next child of the provided set */\r
+struct ir_set_t* ir_set_nextchild\r
+( struct ir_set_t* set )\r
+{ return set->nextchild; }\r
+\r
+/* Get the file position of the class */\r
+long ir_set_fpos\r
+( struct ir_set_t* set )\r
+{ return set->filepos; }\r
+\r
+/* Set the file position of the class */\r
+void ir_set_assign_fpos\r
+( struct ir_set_t* set,\r
+ long newpos\r
+)\r
+{ set->filepos = newpos; }\r
+\r
+/* Assign Setdata to Set */\r
void ir_set_assign_data\r
( struct ir_set_t* set,\r
union ir_setdata_t* setdata\r
switch (setdata->header.type)\r
{ case FSDAT:\r
framebox = ir_set_add_framebox(set, setdata->header.data_name);\r
- if (framebox->framesheets[setdata->framesheet.frameinfo.facing].header.data_name != NULL)\r
+ if (framebox->framesheets[setdata->framesheet.facing].header.data_name != NULL)\r
wprintf("Duplicate framesheet [%i] %s\n",\r
- setdata->framesheet.frameinfo.facing, setdata->header.data_name);\r
- framebox->framesheets[setdata->framesheet.frameinfo.facing] = setdata->framesheet;\r
+ setdata->framesheet.facing, setdata->header.data_name);\r
+ framebox->framesheets[setdata->framesheet.facing] = setdata->framesheet;\r
break;\r
case MSDAT:\r
framebox = ir_set_add_framebox(set, setdata->header.data_name);\r
- if (framebox->mapsheets[setdata->mapsheet.frameinfo.facing].header.data_name != NULL)\r
+ if (framebox->mapsheets[setdata->mapsheet.facing].header.data_name != NULL)\r
wprintf("Duplicate mapsheet [%i] %s\n",\r
- setdata->mapsheet.frameinfo.facing, setdata->header.data_name);\r
- framebox->mapsheets[setdata->mapsheet.frameinfo.facing] = setdata->mapsheet;\r
+ setdata->mapsheet.facing, setdata->header.data_name);\r
+ framebox->mapsheets[setdata->mapsheet.facing] = setdata->mapsheet;\r
break;\r
case ADAT:\r
if (set->audio == NULL)\r
\r
void ir_set_assign_ref\r
( struct ir_set_t* set,\r
- long long ref\r
+ uint32_t ref\r
)\r
-{ if (set->ref != 0)\r
- wprintf("Ref override: 0x%lx -> 0x%lx for set %s\n",\r
- (long unsigned) set->ref, (long unsigned) ref, set->name);\r
+{ uint16_t hash, oldhash;\r
+ struct ir_set_t** iters;\r
+ struct pagenode_t* iterp;\r
+ uint32_t oldref;\r
+ oldref = set->ref;\r
+ oldhash = 0;\r
+ hash = REFHASH(ref);\r
+ iterp = refhashpages.root;\r
+ check_depth:\r
+ iters = ((struct ir_set_t**) iterp->root) + hash;\r
+ if (*iters == NULL || *iters == set)\r
+ *iters = set;\r
+ else\r
+ { if (iterp->header.next == NULL)\r
+ pagelist_alloc(refhashpages);\r
+ iterp = iterp->header.next;\r
+ goto check_depth;\r
+ }\r
+ if (oldref != 0)\r
+ { wprintf("Ref override: 0x%x -> 0x%x for set %s\n", oldref, ref, set->name);\r
+ if (oldhash != 0)\r
+ *iters = NULL;\r
+ else\r
+ { oldhash = hash;\r
+ hash = REFHASH(oldref);\r
+ goto check_depth;\r
+ }\r
+ }\r
set->ref = ref;\r
- //TODO: reflist_add(set);\r
}\r
\r
void ir_data_assign_path\r
}\r
\r
union ir_setdata_t* ir_framesheet\r
-( const uint8_t* name,\r
- apc_facing d,\r
- int width,\r
- int height\r
+( const uint8_t* name,\r
+ struct ir_facinglist_t* facinglist,\r
+ int width,\r
+ int height\r
)\r
-{ return ir_framedata(FSDAT, name, d, width, height); }\r
+{ return ir_framedata(FSDAT, name, facinglist, width, height); }\r
\r
union ir_setdata_t* ir_mapsheet\r
-( const uint8_t* name,\r
- apc_facing d,\r
- int width,\r
- int height\r
+( const uint8_t* name,\r
+ struct ir_facinglist_t* facinglist,\r
+ int width,\r
+ int height\r
)\r
-{ return ir_framedata(MSDAT, name, d, width, height); }\r
+{ return ir_framedata(MSDAT, name, facinglist, width, height); }\r
\r
static inline\r
union ir_setdata_t* ir_framedata\r
-( enum dtype type,\r
- const uint8_t* name,\r
- apc_facing d,\r
- int width,\r
- int height\r
+( enum dtype type,\r
+ const uint8_t* name,\r
+ struct ir_facinglist_t* facinglist,\r
+ int width,\r
+ int height\r
)\r
{ struct ir_framedata_t* framedata = struct_alloc(ir_framedata_t);\r
+ struct_clear(framedata);\r
if (name == NULL)\r
eprintf("Null name in set allocation\n");\r
framedata->header.type = type;\r
framedata->header.data_name = name_alloc(name);\r
- framedata->frameinfo.facing = d;\r
- framedata->frameinfo.w = width;\r
- framedata->frameinfo.h = height;\r
+ if (facinglist != NULL)\r
+ { framedata->facing = facinglist->facing;\r
+ framedata->mirrorlist = facinglist->nextsib;\r
+ }\r
+ else\r
+ { framedata->facing = SFACE;\r
+ framedata->mirrorlist = NULL;\r
+ }\r
+ framedata->nextmirror = framedata->mirrorlist;\r
+ framedata->w = width;\r
+ framedata->h = height;\r
return (union ir_setdata_t*) framedata;\r
}\r
\r
union ir_setdata_t* ir_audio\r
( const uint8_t* name )\r
{ struct ir_simplex_t* audio = struct_alloc(ir_simplex_t);\r
+ struct_clear(audio);\r
if (name == NULL)\r
eprintf("Null audio\n");\r
audio->header.type = ADAT;\r
if (class == NULL)\r
eprintf("Null class in classld\n");\r
classld = struct_alloc(ir_classld_t);\r
+ struct_clear(classld);\r
classld->root_class = class;\r
return classld;\r
}\r
\r
struct ir_setld_t* ir_setld_from_ref\r
-( long long ref )\r
+( uint32_t ref )\r
{ struct ir_setld_t* setld;\r
setld = struct_alloc(ir_setld_t);\r
+ struct_clear(setld);\r
setld->ref = ref;\r
return setld;\r
}\r
)\r
{ struct ir_setld_t* setld;\r
setld = struct_alloc(ir_setld_t);\r
+ struct_clear(setld);\r
setld->namelist = struct_alloc(ir_namelist_t);\r
+ struct_clear(setld->namelist);\r
setld->namelist_head = setld->namelist;\r
setld->namelist_head->name = name_alloc(name);\r
setld->classld = classld;\r
)\r
{ if (setld->namelist == NULL)\r
{ setld->namelist = struct_alloc(ir_namelist_t);\r
+ struct_clear(setld->namelist);\r
setld->namelist_head = setld->namelist;\r
}\r
else\r
{ setld->namelist_head->nextsib = struct_alloc(ir_namelist_t);\r
+ struct_clear(setld->namelist_head->nextsib);\r
setld->namelist_head = setld->namelist_head->nextsib;\r
}\r
setld->namelist_head->name = name_alloc(name);\r
)\r
{ struct ir_link_t* link;\r
link = struct_alloc(ir_link_t);\r
+ struct_clear(link);\r
link->header.type = LDAT;\r
- link->type = link_type; \r
- link->classld = setld->classld;\r
+ link->type = link_type;\r
link->setld = setld;\r
if (link_type != OLINK && name != NULL)\r
link->header.data_name = name_alloc(name);\r
return (union ir_setdata_t*) link;\r
}\r
\r
+/* Return a set's root framebox */\r
+union ir_setdata_t* ir_set_framebox\r
+( struct ir_set_t* set )\r
+{ return (union ir_setdata_t*) set->frameboxes; }\r
\r
-static\r
-void* stack_alloc\r
-( size_t bytes )\r
-{ if (!bytes) //valid behavior to attain current head\r
- return datapages.head->header.head;\r
- if (PL_HEADMEM(datapages) < bytes) \r
- { datapages.head->header.next = (struct pagenode_t*) calloc(datapages.pagesize,1);\r
- if (datapages.head->header.next == NULL)\r
- eprintf("Memory allocation error \n");\r
- datapages.head = datapages.head->header.next; \r
- datapages.head->header.head = datapages.head->root;\r
+/* Return a set's root audio data */\r
+union ir_setdata_t* ir_set_audio\r
+( struct ir_set_t* set )\r
+{ return (union ir_setdata_t*) set->audio; }\r
+\r
+/* Return a set's root link data */\r
+union ir_setdata_t* ir_set_link\r
+( struct ir_set_t* set )\r
+{ return (union ir_setdata_t*) set->links; }\r
+\r
+#define assert_link(linkdata) if (DEBUG) { \\r
+ if (linkdata->header.type != LDAT) \\r
+ eprintf("Data %s is not a link\n", linkdata->header.data_name); \\r
+ }\r
+\r
+/* Return the link type */\r
+enum ltype ir_linkdata_type\r
+( union ir_setdata_t* linkdata )\r
+{ assert_link(linkdata);\r
+ return linkdata->link.type;\r
+}\r
+\r
+/* Return the link type */\r
+uint32_t ir_linkdata_ref\r
+( union ir_setdata_t* linkdata )\r
+{ assert_link(linkdata);\r
+ return linkdata->link.setld->ref;\r
+}\r
+\r
+/* Return the current target set, resolving it first if not present */\r
+struct ir_set_t* ir_linkdata_set\r
+( union ir_setdata_t* linkdata )\r
+{ assert_link(linkdata);\r
+ if (linkdata->link.trg_set == NULL)\r
+ ir_linkdata_resolve_set(linkdata);\r
+ return linkdata->link.trg_set;\r
+}\r
+\r
+/* Resolve and assign the link's target set */\r
+static inline\r
+void ir_linkdata_resolve_set\r
+( union ir_setdata_t* linkdata )\r
+{ struct ir_class_t* class_iter;\r
+ struct ir_namelist_t* namelist_iter,* namelist_iter_last;\r
+ struct ir_setld_t* setld;\r
+ struct ir_classld_t* classld;\r
+ struct ir_set_t* set;\r
+ set = NULL;\r
+ class_iter = NULL;\r
+ assert_link(linkdata);\r
+ setld = linkdata->link.setld;\r
+ if (linkdata->link.setld == NULL)\r
+ eprintf("Link data is invalid\n");\r
+ classld = setld->classld;\r
+ if (classld != NULL)\r
+ { namelist_iter = classld->namelist;\r
+ if (classld->root_class == NULL)\r
+ eprintf("No root class for classld\n");\r
+ class_iter = classld->root_class->nextchild;\r
+ namelist_iter_last = NULL;\r
+ while (class_iter != NULL)\r
+ { if (classnames_identical(class_iter->name, namelist_iter->name))\r
+ { if (namelist_iter == classld->namelist_head)\r
+ break;\r
+ class_iter = class_iter->nextchild;\r
+ namelist_iter_last = namelist_iter;\r
+ namelist_iter = namelist_iter->nextsib;\r
+ }\r
+ else\r
+ class_iter = class_iter->nextsib;\r
+ }\r
+ if (class_iter == NULL)\r
+ { if (namelist_iter_last)\r
+ eprintf("No such subclass \"%s\" of class \"%s\"\n",\r
+ namelist_iter->name,\r
+ namelist_iter_last->name);\r
+ else\r
+ { wprintf("No such class \"%s\"\n", namelist_iter->name);\r
+ return;\r
+ }\r
+ }\r
+ set = class_iter->root_set;\r
+ }\r
+ else\r
+ set = ir_set_from_ref(setld->ref);\r
+ if (set == NULL)\r
+ eprintf("Initial set resolution failed\n");\r
+ namelist_iter = setld->namelist;\r
+ namelist_iter_last = NULL;\r
+ if (setld->namelist != NULL)\r
+ { while (set != NULL)\r
+ { if (bytes_identical(set->name, namelist_iter->name))\r
+ { if (namelist_iter == setld->namelist_head)\r
+ break;\r
+ set = set->nextchild;\r
+ namelist_iter_last = namelist_iter;\r
+ namelist_iter = namelist_iter->nextsib;\r
+ }\r
+ else\r
+ set = set->nextsib;\r
+ }\r
+ if (set == NULL)\r
+ { if (namelist_iter_last)\r
+ eprintf("No such subset \"%s\" of set \"%s\"\n",\r
+ namelist_iter->name,\r
+ namelist_iter_last->name);\r
+ else\r
+ eprintf("No such set \"%s\" in class \"%s\"\n",\r
+ namelist_iter->name,\r
+ class_iter->name);\r
+ }\r
+ }\r
+ linkdata->link.trg_set = set;\r
+}\r
+\r
+/* Assign a linkdatas trg_set */\r
+void ir_linkdata_assign_set\r
+( union ir_setdata_t* link, struct ir_set_t* set )\r
+{ assert_link(link);\r
+ link->link.trg_set = set;\r
+}\r
+\r
+/* Assign a linkdatas type */\r
+void ir_linkdata_assign_type\r
+( union ir_setdata_t* link, enum ltype type )\r
+{ assert_link(link);\r
+ link->link.type = type;\r
+}\r
+\r
+/* Get, or generate, the fully qualified name of the link's target set */\r
+uint8_t*\r
+ir_linkdata_dlink_name\r
+( union ir_setdata_t* link )\r
+{ struct ir_namelist_t* namelist_iter;\r
+ struct ir_setld_t* setld;\r
+ struct ir_classld_t* classld;\r
+ uint8_t* bytep;\r
+ size_t bytes;\r
+ char setpass;\r
+ uint8_t delimiter;\r
+ static const uint8_t dlink_prefix[] = { '/', '.', '.', '/' };\r
+# define dlink_prefix_len 4\r
+ assert_link(link);\r
+ if (link->link.dlink != NULL)\r
+ return link->link.dlink;\r
+ bytes = 0;\r
+ setld = link->link.setld;\r
+ if (setld == NULL)\r
+ eprintf("No setld in dlink\n");\r
+ classld = setld->classld;\r
+ if (classld == NULL)\r
+ eprintf("No classld in dlink\n");\r
+ if (classld->root_class != NULL)\r
+ eprintf("Cannot dlink local class \"%s\"\n", classld->root_class->name);\r
+ namelist_iter = classld->namelist;\r
+ setpass = 0;\r
+ count_bytes_in_namelist:\r
+ while (namelist_iter != NULL)\r
+ { bytep = namelist_iter->name;\r
+ while (*bytep++);\r
+ bytes += (bytep - namelist_iter->name);\r
+ namelist_iter = namelist_iter->nextsib;\r
+ }\r
+ if (setpass == 0)\r
+ { setpass = 1;\r
+ namelist_iter = setld->namelist;\r
+ goto count_bytes_in_namelist;\r
+ }\r
+ bytes += dlink_prefix_len;\r
+ link->link.dlink = stack_alloc(&namepages, bytes);\r
+ for (bytes = 0; bytes < dlink_prefix_len; bytes++)\r
+ link->link.dlink[bytes] = dlink_prefix[bytes];\r
+ namelist_iter = classld->namelist;\r
+ setpass = 0;\r
+ delimiter = APC_CLASS_DELIMITER;\r
+ copy_bytes_in_namelist:\r
+ while (namelist_iter != NULL)\r
+ { bytep = namelist_iter->name;\r
+ while (*bytep)\r
+ link->link.dlink[bytes++] = *bytep++;\r
+ link->link.dlink[bytes++] = delimiter;\r
+ namelist_iter = namelist_iter->nextsib;\r
}\r
- datapages.head->header.head += bytes;\r
- return (void*) datapages.head->header.head - bytes;\r
+ if (setpass == 0)\r
+ { setpass = 1;\r
+ namelist_iter = setld->namelist;\r
+ delimiter = APC_SET_DELIMITER;\r
+ link->link.dlink[bytes - 1] = delimiter; //overwrite last delimiter\r
+ goto copy_bytes_in_namelist;\r
+ }\r
+ link->link.dlink[bytes] = '\0'; //tailing '\0' null termination\r
+ return link->link.dlink;\r
}\r
\r
+/* Get a setdata's next sibling */\r
+union ir_setdata_t* ir_setdata_nextsib\r
+( union ir_setdata_t* setdata )\r
+{ return setdata->header.nextsib; }\r
+\r
+/* Get a setdata's name */\r
+uint8_t* ir_setdata_name\r
+( union ir_setdata_t* setdata )\r
+{ return setdata->header.data_name; }\r
+\r
+/* Get a setdata's filename */\r
+uint8_t* ir_setdata_filename\r
+( union ir_setdata_t* setdata )\r
+{ return setdata->header.src_filename; }\r
+\r
+/* Get a setdata's file position */\r
+long ir_setdata_fpos\r
+( union ir_setdata_t* setdata )\r
+{ return setdata->header.filepos; }\r
+\r
+/* Set a setdata's file position */\r
+void ir_setdata_assign_fpos\r
+( union ir_setdata_t* setdata,\r
+ long newpos\r
+)\r
+{ setdata->header.filepos = newpos; }\r
+\r
+/* Assign a setdatas name */\r
+void ir_setdata_assign_name\r
+( union ir_setdata_t* setdata, uint8_t* name )\r
+{ setdata->header.data_name = name;}\r
+\r
+/* Create a new facinglist from an apc_facing */\r
+struct ir_facinglist_t* ir_facinglist\r
+( apc_facing facing )\r
+{ struct ir_facinglist_t* list = struct_alloc(ir_facinglist_t);\r
+ list->facing = facing;\r
+ return list;\r
+}\r
+\r
+/* Add a child to the facing list */\r
+struct ir_facinglist_t* ir_facinglist_push\r
+( struct ir_facinglist_t* list,\r
+ apc_facing facing\r
+)\r
+{ struct ir_facinglist_t* iter = list;\r
+ if (iter != NULL)\r
+ { while (iter->nextsib != NULL)\r
+ iter = iter->nextsib;\r
+ iter->nextsib = struct_alloc(ir_facinglist_t);\r
+ iter->nextsib->facing = facing;\r
+ }\r
+ return list;\r
+}\r
+\r
+#define assert_framebox(fbox) if (DEBUG) { \\r
+ if (fbox->header.type != FBDAT) \\r
+ eprintf("Data %s is not a framebox\n", fbox->header.data_name); \\r
+ }\r
+\r
+/* Return a framebox's specified framesheet */\r
+union ir_setdata_t* ir_framebox_framesheet\r
+( union ir_setdata_t* fbox,\r
+ apc_facing facing\r
+)\r
+{ assert_framebox(fbox);\r
+ return (union ir_setdata_t*) &fbox->framebox.framesheets[facing];\r
+}\r
+\r
+/* Return a framebox's specified mapsheet */\r
+union ir_setdata_t* ir_framebox_mapsheet\r
+( union ir_setdata_t* fbox,\r
+ apc_facing facing\r
+)\r
+{ assert_framebox(fbox);\r
+ return (union ir_setdata_t*) &fbox->framebox.mapsheets[facing];\r
+}\r
+\r
+#define assert_framedata(fdat) if (DEBUG) { \\r
+ if (fdat->header.type != MSDAT && fdat->header.type != FSDAT) \\r
+ eprintf("Data %s is not a framedata\n", fdat->header.data_name); \\r
+ }\r
+\r
+/* Return a framedata's frame info */\r
+int ir_framedata_width\r
+( union ir_setdata_t* framedata )\r
+{ assert_framedata(framedata);\r
+ return framedata->mapsheet.w;\r
+}\r
+\r
+/* Return a framedata's frame info */\r
+int ir_framedata_height\r
+( union ir_setdata_t* framedata )\r
+{ assert_framedata(framedata);\r
+ return framedata->mapsheet.h;\r
+}\r
+\r
+/* Return the next facing in the framedata's facing list, and reset the\r
+ 'nextmirror' head to mirrorlist, so that 'ir_framedata_nextmirror' will now\r
+ refer to the second facing in the framedata */\r
+apc_facing ir_framedata_firstfacing\r
+( union ir_setdata_t* framedata )\r
+{ assert_framedata(framedata);\r
+ framedata->mapsheet.nextmirror = framedata->mapsheet.mirrorlist;\r
+ return framedata->mapsheet.facing;\r
+}\r
+\r
+/* Return the next facing for this framedata, incrementing the 'nextmirror'\r
+ head. Returns FACING_MAX when there are no more facings to return. */\r
+apc_facing ir_framedata_nextfacing\r
+( union ir_setdata_t* framedata )\r
+{ apc_facing facing;\r
+ assert_framedata(framedata);\r
+ if (framedata->mapsheet.nextmirror == NULL)\r
+ return FACING_MAX;\r
+ facing = framedata->mapsheet.nextmirror->facing;\r
+ framedata->mapsheet.nextmirror = framedata->mapsheet.nextmirror->nextsib;\r
+ return facing;\r
+}\r
+\r
+/** Allocators **/\r
static\r
uint8_t* name_alloc\r
( const uint8_t* name_src )\r
copy:\r
name = (uint8_t*)namepages.head->header.head;\r
iter = name_src;\r
- for (head_mem = PL_HEADMEM(namepages); *iter && *iter != '_' && head_mem; head_mem--)\r
+ for (head_mem = PL_HEADMEM(namepages); *iter && *iter != '_' && *iter != '.' && head_mem; head_mem--)\r
*(namepages.head->header.head)++ = *iter++;\r
- if (head_mem == 0) //not enough room\r
- { namepages.head->header.next = (struct pagenode_t*) calloc(namepages.pagesize,1);\r
- if (namepages.head->header.next == NULL)\r
- eprintf("Memory allocation error\n");\r
- namepages.head = namepages.head->header.next;\r
- namepages.head->header.head = namepages.head->root;\r
+ if (head_mem < 1) //not enough room\r
+ { pagelist_alloc(namepages);\r
goto copy;\r
}\r
*(namepages.head->header.head)++ = '\0';\r
iter = name_src;\r
for (head_mem = PL_HEADMEM(namepages); *iter && head_mem; head_mem--)\r
*(namepages.head->header.head)++ = *iter++;\r
- if (head_mem == 0) //not enough room\r
- { namepages.head->header.next = (struct pagenode_t*) calloc(namepages.pagesize,1);\r
- if (namepages.head->header.next == NULL)\r
- eprintf("Memory allocation error\n");\r
- namepages.head = namepages.head->header.next;\r
- namepages.head->header.head = namepages.head->root;\r
+ if (head_mem < 1) //not enough room\r
+ { pagelist_alloc(namepages);\r
goto copy;\r
}\r
*(namepages.head->header.head)++ = '\0';\r
return name;\r
}\r
+\r
+static void crawl_class(struct ir_class_t*);\r
+static void crawl_set(struct ir_set_t*,int);\r
+\r
+extern\r
+int binout_init(ir_class);\r
+void ir_test(void)\r
+{ uprintf("IR From Directory: %s\n",getcwd(NULL,255));\r
+ crawl_class(&root_class);\r
+ if (root_class.root_set != NULL)\r
+ crawl_set(root_class.root_set, 0);\r
+ uprintf("starting binaryout \n");\r
+ binout_init(&root_class);\r
+}\r
+\r
+\r
+static\r
+void crawl_class\r
+( struct ir_class_t* class )\r
+{ struct ir_class_t* iter;\r
+ for (iter = class->nextchild; iter != NULL; iter = iter->nextsib)\r
+ { wprintf("Crawling class %U/\n", iter->name);\r
+ if(chdir((char*)iter->name))\r
+ eprintf("CHDIR %U from %s\n",iter->name,getcwd(NULL,255));\r
+ crawl_class(iter);\r
+ if (iter->root_set != NULL)\r
+ crawl_set(iter->root_set, 0);\r
+ uprintf("%U\\\n",iter->name);\r
+ if (chdir(".."))\r
+ eprintf("CHDIR ..\n");\r
+ wprintf("Finished crawling class %U/\n", iter->name);\r
+ }\r
+}\r
+\r
+#define push_setp(setp) (*(struct ir_set_t**)stack_alloc(&datapages, sizeof(struct ir_set_t*)) = setp)\r
+#define pop_setp() (*(struct ir_set_t**)pagelist_pop(&datapages, sizeof(struct ir_set_t*)))\r
+static\r
+void crawl_set\r
+( struct ir_set_t* set,\r
+ int depth\r
+)\r
+{ struct ir_set_t* iter;\r
+ int i;\r
+ i = depth * 12;\r
+ while (i--)\r
+ putchar('.');\r
+ i = depth;\r
+\r
+ for(iter = set; iter != NULL; iter = iter->nextchild)\r
+ { uprintf("[%10U]", iter->name);\r
+ push_setp(iter);\r
+ i++;\r
+ }\r
+\r
+ putchar('\n');\r
+ while (--i >= depth)\r
+ if (((iter = pop_setp())->nextsib) != NULL)\r
+ crawl_set(iter->nextsib,i);\r
+}\r