uint32_t 101 lib-src/seccomp-filter.c set_attribute (enum scmp_filter_attr attr, uint32_t value) uint32_t 81 lib/md5.c set_uint32 (char *cp, uint32_t v) uint32_t 106 lib/md5.c uint32_t bytes = ctx->buflen; uint32_t 179 lib/md5.c # define UNALIGNED_P(p) ((uintptr_t) (p) % alignof (uint32_t) != 0) uint32_t 231 lib/md5.c uint32_t correct_words[16]; uint32_t 232 lib/md5.c const uint32_t *words = buffer; uint32_t 233 lib/md5.c size_t nwords = len / sizeof (uint32_t); uint32_t 234 lib/md5.c const uint32_t *endp = words + nwords; uint32_t 235 lib/md5.c uint32_t A = ctx->A; uint32_t 236 lib/md5.c uint32_t B = ctx->B; uint32_t 237 lib/md5.c uint32_t C = ctx->C; uint32_t 238 lib/md5.c uint32_t D = ctx->D; uint32_t 239 lib/md5.c uint32_t lolen = len; uint32_t 251 lib/md5.c uint32_t *cwp = correct_words; uint32_t 252 lib/md5.c uint32_t A_save = A; uint32_t 253 lib/md5.c uint32_t B_save = B; uint32_t 254 lib/md5.c uint32_t C_save = C; uint32_t 255 lib/md5.c uint32_t D_save = D; uint32_t 74 lib/md5.h uint32_t A; uint32_t 75 lib/md5.h uint32_t B; uint32_t 76 lib/md5.h uint32_t C; uint32_t 77 lib/md5.h uint32_t D; uint32_t 79 lib/md5.h uint32_t total[2]; uint32_t 80 lib/md5.h uint32_t buflen; /* ≥ 0, ≤ 128 */ uint32_t 81 lib/md5.h uint32_t buffer[32]; /* 128 bytes; the first buflen bytes are in use */ uint32_t 2799 lib/regcomp.c lookup_collation_sequence_value (bracket_elem_t *br_elem, uint32_t nrules, uint32_t 2873 lib/regcomp.c re_dfa_t *dfa, reg_syntax_t syntax, uint32_t nrules, uint32_t 2879 lib/regcomp.c uint32_t start_collseq; uint32_t 2880 lib/regcomp.c uint32_t end_collseq; uint32_t 2913 lib/regcomp.c uint32_t *new_array_start; uint32_t 2914 lib/regcomp.c uint32_t *new_array_end; uint32_t 2919 lib/regcomp.c new_array_start = re_realloc (mbcset->range_starts, uint32_t, uint32_t 2921 lib/regcomp.c new_array_end = re_realloc (mbcset->range_ends, uint32_t, uint32_t 2940 lib/regcomp.c uint32_t ch_collseq; uint32_t 3387 lib/regcomp.c uint32_t nrules = _NL_CURRENT_WORD (LC_COLLATE, _NL_COLLATE_NRULES); uint32_t 305 lib/regex_internal.h uint32_t *range_starts; uint32_t 306 lib/regex_internal.h uint32_t *range_ends; uint32_t 3697 lib/regexec.c uint32_t nrules; uint32_t 3840 lib/regexec.c uint32_t nrules = _NL_CURRENT_WORD (LC_COLLATE, _NL_COLLATE_NRULES); uint32_t 3882 lib/regexec.c idx += sizeof (uint32_t); uint32_t 3884 lib/regexec.c idx = idx + sizeof (uint32_t) * (*(int32_t *) (extra + idx) + 1); uint32_t 3887 lib/regexec.c return *(uint32_t *) (extra + idx); uint32_t 3889 lib/regexec.c idx += sizeof (uint32_t); uint32_t 70 lib/sha1.c set_uint32 (char *cp, uint32_t v) uint32_t 96 lib/sha1.c uint32_t bytes = ctx->buflen; uint32_t 168 lib/sha1.c # define UNALIGNED_P(p) ((uintptr_t) (p) % alignof (uint32_t) != 0) uint32_t 225 lib/sha1.c const uint32_t *words = buffer; uint32_t 226 lib/sha1.c size_t nwords = len / sizeof (uint32_t); uint32_t 227 lib/sha1.c const uint32_t *endp = words + nwords; uint32_t 228 lib/sha1.c uint32_t x[16]; uint32_t 229 lib/sha1.c uint32_t a = ctx->A; uint32_t 230 lib/sha1.c uint32_t b = ctx->B; uint32_t 231 lib/sha1.c uint32_t c = ctx->C; uint32_t 232 lib/sha1.c uint32_t d = ctx->D; uint32_t 233 lib/sha1.c uint32_t e = ctx->E; uint32_t 234 lib/sha1.c uint32_t lolen = len; uint32_t 242 lib/sha1.c #define rol(x, n) (((x) << (n)) | ((uint32_t) (x) >> (32 - (n)))) uint32_t 257 lib/sha1.c uint32_t tm; uint32_t 45 lib/sha1.h uint32_t A; uint32_t 46 lib/sha1.h uint32_t B; uint32_t 47 lib/sha1.h uint32_t C; uint32_t 48 lib/sha1.h uint32_t D; uint32_t 49 lib/sha1.h uint32_t E; uint32_t 51 lib/sha1.h uint32_t total[2]; uint32_t 52 lib/sha1.h uint32_t buflen; /* ≥ 0, ≤ 128 */ uint32_t 53 lib/sha1.h uint32_t buffer[32]; /* 128 bytes; the first buflen bytes are in use */ uint32_t 89 lib/sha256.c set_uint32 (char *cp, uint32_t v) uint32_t 229 lib/sha256.c # define UNALIGNED_P(p) ((uintptr_t) (p) % alignof (uint32_t) != 0) uint32_t 269 lib/sha256.c static const uint32_t sha256_round_constants[64] = { uint32_t 299 lib/sha256.c const uint32_t *words = buffer; uint32_t 300 lib/sha256.c size_t nwords = len / sizeof (uint32_t); uint32_t 301 lib/sha256.c const uint32_t *endp = words + nwords; uint32_t 302 lib/sha256.c uint32_t x[16]; uint32_t 303 lib/sha256.c uint32_t a = ctx->state[0]; uint32_t 304 lib/sha256.c uint32_t b = ctx->state[1]; uint32_t 305 lib/sha256.c uint32_t c = ctx->state[2]; uint32_t 306 lib/sha256.c uint32_t d = ctx->state[3]; uint32_t 307 lib/sha256.c uint32_t e = ctx->state[4]; uint32_t 308 lib/sha256.c uint32_t f = ctx->state[5]; uint32_t 309 lib/sha256.c uint32_t g = ctx->state[6]; uint32_t 310 lib/sha256.c uint32_t h = ctx->state[7]; uint32_t 311 lib/sha256.c uint32_t lolen = len; uint32_t 339 lib/sha256.c uint32_t tm; uint32_t 340 lib/sha256.c uint32_t t0, t1; uint32_t 47 lib/sha256.h uint32_t state[8]; uint32_t 49 lib/sha256.h uint32_t total[2]; uint32_t 51 lib/sha256.h uint32_t buffer[32]; /* 128 bytes; the first buflen bytes are in use */ uint32_t 245 lib/stdint.in.h # define uint_least32_t uint32_t uint32_t 56 lib/u64.h typedef struct { uint32_t hi, lo; } u64; uint32_t 59 lib/u64.h typedef struct { uint32_t lo, hi; } u64; uint32_t 66 lib/u64.h u64hilo (uint32_t hi, uint32_t lo) uint32_t 76 lib/u64.h u64lo (uint32_t lo) uint32_t 550 src/dispextern.h uint32_t xwidget; uint32_t 587 src/ftcrfont.c uint32_t col = be_background; uint32_t 615 src/ftcrfont.c uint32_t col = be_foreground; uint32_t 39 src/haiku_draw_support.cc rgb32_to_rgb_color (uint32_t rgb, rgb_color *color) uint32_t 69 src/haiku_draw_support.cc BView_SetHighColor (void *view, uint32_t color) uint32_t 79 src/haiku_draw_support.cc BView_SetLowColor (void *view, uint32_t color) uint32_t 123 src/haiku_draw_support.cc BView_SetViewColor (void *view, uint32_t color) uint32_t 211 src/haiku_draw_support.cc rgb_color_hsl (uint32_t rgb, double *h, double *s, double *l) uint32_t 260 src/haiku_draw_support.cc hsl_color_rgb (double h, double s, double l, uint32_t *rgb) uint32_t 329 src/haiku_draw_support.cc uint32_t *bits; uint32_t 337 src/haiku_draw_support.cc bits = (uint32_t *) bc.Bits (); uint32_t 367 src/haiku_draw_support.cc uint32_t color) uint32_t 388 src/haiku_draw_support.cc ((uint32_t) 255 << 24) | color); uint32_t 444 src/haiku_draw_support.cc int height, uint32_t color) uint32_t 471 src/haiku_draw_support.cc int height, uint32_t color) uint32_t 490 src/haiku_draw_support.cc uint32_t source_mask; uint32_t 121 src/haiku_font_support.cc uint32_t hash; uint32_t 149 src/haiku_font_support.cc uint32_t hash; uint32_t 537 src/haiku_font_support.cc font_family_style_matches_p (font_family family, char *style, uint32_t flags, uint32_t 597 src/haiku_font_support.cc uint32_t flags) uint32_t 364 src/haiku_support.cc map_key (char *chars, int32 offset, uint32_t *c) uint32_t 389 src/haiku_support.cc map_shift (uint32_t kc, uint32_t *ch) uint32_t 406 src/haiku_support.cc map_caps (uint32_t kc, uint32_t *ch) uint32_t 423 src/haiku_support.cc map_caps_shift (uint32_t kc, uint32_t *ch) uint32_t 440 src/haiku_support.cc map_normal (uint32_t kc, uint32_t *ch) uint32_t 1014 src/haiku_support.cc uint32_t mods = modifiers (); uint32_t 1064 src/haiku_support.cc uint32_t mods = modifiers (); uint32_t 1183 src/haiku_support.cc WorkspacesChanged (uint32_t old, uint32_t n) uint32_t 5249 src/haiku_support.cc be_get_ui_color (const char *name, uint32_t *color) uint32_t 182 src/haiku_support.h uint32_t multibyte_char; uint32_t 522 src/haiku_support.h extern void rgb_color_hsl (uint32_t, double *, double *, double *); uint32_t 523 src/haiku_support.h extern void hsl_color_rgb (double, double, double, uint32_t *); uint32_t 529 src/haiku_support.h uint32_t); uint32_t 571 src/haiku_support.h extern void BView_SetHighColor (void *, uint32_t); uint32_t 572 src/haiku_support.h extern void BView_SetLowColor (void *, uint32_t); uint32_t 582 src/haiku_support.h extern void BView_SetViewColor (void *, uint32_t); uint32_t 599 src/haiku_support.h extern void *be_transform_bitmap (void *, void *, uint32_t, double, uint32_t 605 src/haiku_support.h int, int, uint32_t); uint32_t 725 src/haiku_support.h extern int be_get_ui_color (const char *, uint32_t *); uint32_t 306 src/haikufns.c uint32_t ui_color; uint32_t 1576 src/haikufns.c return ((uint32_t *) (data + (bytes_per_row * y)))[x]; uint32_t 1610 src/haikufns.c ((uint32_t *) (data + (bytes_per_row * y)))[x] = pixel; uint32_t 1773 src/haikufns.c haiku_query_color (uint32_t col, Emacs_Color *color_def) uint32_t 1969 src/haikufns.c uint32_t foreground, uint32_t background) uint32_t 574 src/haikufont.c if (TYPE_RANGED_FIXNUMP (uint32_t, AREF (tem, j))) uint32_t 584 src/haikufont.c if (TYPE_RANGED_FIXNUMP (uint32_t, AREF (tem, j))) uint32_t 596 src/haikufont.c if (TYPE_RANGED_FIXNUMP (uint32_t, XCAR (it))) uint32_t 607 src/haikufont.c if (TYPE_RANGED_FIXNUMP (uint32_t, XCAR (tem))) uint32_t 1005 src/haikufont.c uint32_t *mb_buf; uint32_t 1029 src/haikufont.c uint32_t c = LGLYPH_CHAR (LGSTRING_GLYPH (lgstring, i)); uint32_t 623 src/haikuterm.c haiku_calculate_relief_colors (struct glyph_string *s, uint32_t *rgbout_w, uint32_t 624 src/haikuterm.c uint32_t *rgbout_b) uint32_t 627 src/haikuterm.c uint32_t rgbin; uint32_t 665 src/haikuterm.c uint32_t color_white, color_black; uint32_t 1045 src/haikuterm.c uint32_t new_foreground, uint32_t 1046 src/haikuterm.c uint32_t new_background) uint32_t 1143 src/haikuterm.c haiku_mouse_face_colors (struct glyph_string *s, uint32_t *fg, uint32_t 1144 src/haikuterm.c uint32_t *bg) uint32_t 1314 src/haikuterm.c uint32_t bkg; uint32_t 2084 src/haikuterm.c uint32_t foreground; uint32_t 2138 src/haikuterm.c uint32_t foreground; uint32_t 59 src/haikuterm.h uint32_t stipple_foreground; uint32_t 60 src/haikuterm.h uint32_t stipple_background; uint32_t 191 src/haikuterm.h uint32_t cursor_fg; uint32_t 200 src/haikuterm.h uint32_t black_relief_pixel; uint32_t 203 src/haikuterm.h uint32_t white_relief_pixel; uint32_t 334 src/haikuterm.h extern void haiku_query_color (uint32_t, Emacs_Color *); uint32_t 219 src/image.c ((uint32_t *)(image->data + y * image->bytes_per_line))[x] = pixel; uint32_t 228 src/image.c return ((uint32_t *)(image->data + y * image->bytes_per_line))[x]; uint32_t 8418 src/image.c # define UINT32 uint32_t uint32_t 9588 src/image.c DEF_DLL_FN (uint32_t, WebPDemuxGetI, (const WebPDemuxer *, WebPFormatFeature)); uint32_t 72 src/inotify.c mask_to_aspects (uint32_t mask) uint32_t 110 src/inotify.c static uint32_t uint32_t 156 src/inotify.c static uint32_t uint32_t 162 src/inotify.c uint32_t mask = 0; uint32_t 176 src/inotify.c uint32_t mask; uint32_t 177 src/inotify.c CONS_TO_INTEGER (Fnth (make_fixnum (3), watch), uint32_t, mask); uint32_t 202 src/inotify.c uint32_t imask, Lisp_Object callback) uint32_t 420 src/inotify.c uint32_t imask = aspect_to_inotifymask (aspect); uint32_t 421 src/inotify.c uint32_t mask = imask | IN_MASK_ADD | IN_EXCL_UNLINK; uint32_t 4578 src/pdumper.c uint32_t offset_high = (uint32_t) (full_offset >> 32); uint32_t 4579 src/pdumper.c uint32_t offset_low = (uint32_t) (full_offset & 0xffffffff); uint32_t 4293 src/process.c uint32_t *maskp; uint32_t 4294 src/process.c uint32_t *addrp; uint32_t 4305 src/process.c maskp = (uint32_t *)&sin1->sin_addr; uint32_t 4307 src/process.c addrp = (uint32_t *)&sin2->sin_addr; uint32_t 4315 src/process.c maskp = (uint32_t *) &sin6_1->sin6_addr; uint32_t 4317 src/process.c addrp = (uint32_t *) &sin6_2->sin6_addr; uint32_t 4334 src/process.c uint32_t mask; uint32_t 91 src/treesit.c DEF_DLL_FN (uint32_t, ts_language_version, (const TSLanguage *)); uint32_t 92 src/treesit.c DEF_DLL_FN (TSNode, ts_node_child, (TSNode, uint32_t)); uint32_t 94 src/treesit.c (TSNode, const char *, uint32_t)); uint32_t 95 src/treesit.c DEF_DLL_FN (uint32_t, ts_node_child_count, (TSNode)); uint32_t 97 src/treesit.c (TSNode, uint32_t, uint32_t)); uint32_t 98 src/treesit.c DEF_DLL_FN (uint32_t, ts_node_end_byte, (TSNode)); uint32_t 100 src/treesit.c DEF_DLL_FN (const char *, ts_node_field_name_for_child, (TSNode, uint32_t)); uint32_t 106 src/treesit.c DEF_DLL_FN (TSNode, ts_node_named_child, (TSNode, uint32_t)); uint32_t 107 src/treesit.c DEF_DLL_FN (uint32_t, ts_node_named_child_count, (TSNode)); uint32_t 109 src/treesit.c (TSNode, uint32_t, uint32_t)); uint32_t 114 src/treesit.c DEF_DLL_FN (uint32_t, ts_node_start_byte, (TSNode)); uint32_t 119 src/treesit.c (const TSParser *, uint32_t *)); uint32_t 124 src/treesit.c (TSParser *, const TSRange *, uint32_t)); uint32_t 127 src/treesit.c (const TSQuery *, uint32_t, uint32_t *)); uint32_t 135 src/treesit.c (TSQueryCursor *, uint32_t, uint32_t)); uint32_t 138 src/treesit.c (const TSLanguage *, const char *, uint32_t, uint32_t *, TSQueryError *)); uint32_t 139 src/treesit.c DEF_DLL_FN (uint32_t, ts_query_pattern_count, (const TSQuery *)); uint32_t 141 src/treesit.c ( const TSQuery *, uint32_t, uint32_t *)); uint32_t 143 src/treesit.c (const TSQuery *, uint32_t, uint32_t *)); uint32_t 156 src/treesit.c (const TSTree *, const TSTree *, uint32_t *)); uint32_t 734 src/treesit.c uint32_t version = ts_language_version (ts_language); uint32_t 764 src/treesit.c TSInputEdit edit = {(uint32_t) start_byte, uint32_t 765 src/treesit.c (uint32_t) old_end_byte, uint32_t 766 src/treesit.c (uint32_t) new_end_byte, uint32_t 994 src/treesit.c static Lisp_Object treesit_make_ranges (const TSRange *, uint32_t, struct buffer *); uint32_t 1006 src/treesit.c uint32_t len; uint32_t 1084 src/treesit.c treesit_read_buffer (void *parser, uint32_t byte_index, uint32_t 1085 src/treesit.c TSPoint position, uint32_t *bytes_read) uint32_t 1127 src/treesit.c *bytes_read = (uint32_t) len; uint32_t 1239 src/treesit.c treesit_compose_query_signal_data (uint32_t error_offset, uint32_t 1277 src/treesit.c uint32_t error_offset; uint32_t 1571 src/treesit.c treesit_make_ranges (const TSRange *ranges, uint32_t len, uint32_t 1578 src/treesit.c uint32_t beg_byte = range.start_byte + BUF_BEGV_BYTE (buffer); uint32_t 1579 src/treesit.c uint32_t end_byte = range.end_byte + BUF_BEGV_BYTE (buffer); uint32_t 1634 src/treesit.c uint32_t len = (uint32_t) list_length (ranges); uint32_t 1652 src/treesit.c (uint32_t) beg_byte - BUF_BEGV_BYTE (buffer), uint32_t 1653 src/treesit.c (uint32_t) end_byte - BUF_BEGV_BYTE (buffer)}; uint32_t 1693 src/treesit.c uint32_t len; uint32_t 1828 src/treesit.c uint32_t start_byte_offset = ts_node_start_byte (treesit_node); uint32_t 1849 src/treesit.c uint32_t end_byte_offset = ts_node_end_byte (treesit_node); uint32_t 1940 src/treesit.c child = ts_node_child (treesit_node, (uint32_t) idx); uint32_t 1942 src/treesit.c child = ts_node_named_child (treesit_node, (uint32_t) idx); uint32_t 2037 src/treesit.c = ts_node_field_name_for_child (treesit_node, (uint32_t) idx); uint32_t 2060 src/treesit.c uint32_t count; uint32_t 2390 src/treesit.c treesit_predicates_for_pattern (TSQuery *query, uint32_t pattern_index) uint32_t 2392 src/treesit.c uint32_t len; uint32_t 2404 src/treesit.c uint32_t str_len; uint32_t 2414 src/treesit.c uint32_t str_len; uint32_t 2536 src/treesit.c uint32_t start_byte_offset = ts_node_start_byte (treesit_node); uint32_t 2537 src/treesit.c uint32_t end_byte_offset = ts_node_end_byte (treesit_node); uint32_t 2768 src/treesit.c uint32_t error_offset; uint32_t 2793 src/treesit.c (uint32_t) (beg_byte - visible_beg), uint32_t 2794 src/treesit.c (uint32_t) (end_byte - visible_beg)); uint32_t 2810 src/treesit.c uint32_t patterns_count = ts_query_pattern_count (treesit_query); uint32_t 2822 src/treesit.c uint32_t capture_name_len; uint32_t 2879 src/treesit.c uint32_t end_pos, ptrdiff_t limit) uint32_t 2936 src/treesit.c uint32_t end_pos = ts_node_end_byte (node); uint32_t 9852 src/w32.c uint32_t *maskp; uint32_t 9853 src/w32.c uint32_t *addrp; uint32_t 9873 src/w32.c addrp = (uint32_t *)&sin_in->sin_addr; uint32_t 9874 src/w32.c maskp = (uint32_t *)&ipv4.sin_addr; uint32_t 9885 src/w32.c addrp = (uint32_t *)&sin_in6->sin6_addr; uint32_t 9886 src/w32.c maskp = (uint32_t *)&ipv6.sin6_addr; uint32_t 9951 src/w32.c uint32_t mask; uint32_t 5731 src/xfns.c uint32_t current_workspace, *values; uint32_t 5757 src/xfns.c current_workspace = *(uint32_t *) xcb_get_property_value (reply); uint32_t 5770 src/xfns.c && (xcb_get_property_value_length (reply) / sizeof (uint32_t) uint32_t 8301 src/xfns.c uint32_t value_list[6]; uint32_t 9002 src/xfns.c uint32_t values[] = { root_x, root_y, width, height, XCB_STACK_MODE_ABOVE }; uint32_t 9742 src/xfns.c uint32_t time; uint32_t 9747 src/xfns.c CONS_TO_INTEGER (time_object, uint32_t, time); uint32_t 1520 src/xterm.c /* CARD32 */ uint32_t total_data_size; uint32_t 1526 src/xterm.c /* CARD32 */ uint32_t targets[FLEXIBLE_ARRAY_MEMBER]; uint32_t 1535 src/xterm.c /* CARD32 */ uint32_t timestamp; uint32_t 1537 src/xterm.c /* CARD32 */ uint32_t index_atom; uint32_t 1538 src/xterm.c /* CARD32 */ uint32_t source_window; uint32_t 1557 src/xterm.c /* CARD32 */ uint32_t selection; uint32_t 1567 src/xterm.c /* CARD32 */ uint32_t unspecified1; uint32_t 1568 src/xterm.c /* CARD32 */ uint32_t unspecified2; uint32_t 1569 src/xterm.c /* CARD32 */ uint32_t unspecified3; uint32_t 1578 src/xterm.c /* CARD32 */ uint32_t timestamp; uint32_t 1579 src/xterm.c /* CARD32 */ uint32_t source_window; uint32_t 1580 src/xterm.c /* CARD32 */ uint32_t index_atom; uint32_t 1589 src/xterm.c /* CARD32 */ uint32_t timestamp; uint32_t 1599 src/xterm.c /* CARD32 */ uint32_t timestamp; uint32_t 1610 src/xterm.c /* CARD32 */ uint32_t timestamp; uint32_t 1611 src/xterm.c /* CARD32 */ uint32_t source_window; uint32_t 1739 src/xterm.c header_return->total_data_size = *(uint32_t *) (bytes + 2); uint32_t 1776 src/xterm.c rec->targets[i] = ((uint32_t *) (bytes + 2))[i]; uint32_t 1792 src/xterm.c uint32_t *targets; uint32_t 1832 src/xterm.c *((uint32_t *) (header_buffer + 2)) = header->total_data_size; uint32_t 1852 src/xterm.c ((uint32_t *) (rec_buffer + 2))[j] = recs[i]->targets[j]; uint32_t 1881 src/xterm.c *((uint32_t *) (buf + 4)) = info->selection; uint32_t 2117 src/xterm.c uint32_t size, target_count; uint32_t 2506 src/xterm.c *((uint32_t *) &msg.xclient.data.b[4]) = dmsg->timestamp; uint32_t 2509 src/xterm.c *((uint32_t *) &msg.xclient.data.b[12]) = dmsg->index_atom; uint32_t 2510 src/xterm.c *((uint32_t *) &msg.xclient.data.b[16]) = dmsg->source_window; uint32_t 2531 src/xterm.c *((uint32_t *) &msg.xclient.data.b[4]) = dmsg->timestamp; uint32_t 2532 src/xterm.c *((uint32_t *) &msg.xclient.data.b[8]) = dmsg->source_window; uint32_t 2533 src/xterm.c *((uint32_t *) &msg.xclient.data.b[12]) = dmsg->index_atom; uint32_t 2558 src/xterm.c *((uint32_t *) &msg.xclient.data.b[4]) = dmsg->timestamp; uint32_t 2618 src/xterm.c *((uint32_t *) &msg.xclient.data.b[4]) = dmsg->timestamp; uint32_t 2619 src/xterm.c *((uint32_t *) &msg.xclient.data.b[8]) = dmsg->source_window; uint32_t 2682 src/xterm.c dmsg->timestamp = *(uint32_t *) (data + 2); uint32_t 2685 src/xterm.c dmsg->index_atom = *(uint32_t *) (data + 10); uint32_t 2686 src/xterm.c dmsg->source_window = *(uint32_t *) (data + 14); uint32_t 2739 src/xterm.c rec->unspecified1 = *(uint32_t *) &data[4]; uint32_t 2740 src/xterm.c rec->unspecified2 = *(uint32_t *) &data[8]; uint32_t 2741 src/xterm.c rec->unspecified3 = *(uint32_t *) &data[12]; uint32_t 2776 src/xterm.c dmsg->timestamp = *(uint32_t *) (data + 2); uint32_t 2809 src/xterm.c reply->timestamp = *(uint32_t *) (data + 2); uint32_t 2962 src/xterm.c uint32_t *wmstate, *fextents; uint32_t 3231 src/xterm.c wmstate = (uint32_t *) xcb_get_property_value (property_reply); uint32_t 3820 src/xterm.c *wmstate_out = *(uint32_t *) xcb_get_property_value (reply); uint32_t 3835 src/xterm.c *proto_out = *(uint32_t *) xcb_get_property_value (reply); uint32_t 11042 src/xterm.c uint32_t cursor = (uint32_t) x->hourglass_cursor; uint32_t 11067 src/xterm.c uint32_t value = XCB_STACK_MODE_ABOVE; uint32_t 19155 src/xterm.c uint32_t value; uint32_t 19215 src/xterm.c value = *(uint32_t *) xcb_get_property_value (opacity_reply); uint32_t 60 src/xwidget.c static uint32_t xwidget_counter = 0; uint32_t 707 src/xwidget.c xwidget_from_id (uint32_t id) uint32_t 72 src/xwidget.h uint32_t xwidget_id; uint32_t 206 src/xwidget.h extern struct xwidget *xwidget_from_id (uint32_t id);