| /netgear-WNDR4500v2-V1.0.0.60_1.0.38/ap/gpl/minidlna/ffmpeg-0.5.1/libavcodec/ |
| H A D | utils.d | 1 libavcodec/utils.o: libavcodec/utils.c libavutil/avstring.h libavutil/integer.h \
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| /netgear-WNDR4500v2-V1.0.0.60_1.0.38/ap/gpl/minidlna/libvorbis-1.2.3/doc/ |
| H A D | 01-introduction.tex | 244 decoding and, optionally, use the entropy-decoded integer value as an
337 stream. The mode is encoded as an integer used as a direct offset into
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| H A D | 02-bitpacking.tex | 9 arbitrary-width binary integer fields. Logically, these packets are a
25 smallest integer storage representation offered by a platform. On
29 bytes as the fundamental atom of storage). A 'word' is an integer
42 only bit set when the byte is storing the two's complement integer
71 zero to 32 bits wide, into packets. These integer fields are not
76 integer to the logical bitstream first, followed by next least
79 placing the LSb of the integer to be written into the least
81 the next-least significant bit of the source integer and so on up to
95 an unsigned integer, or '-1' as a signed, two's complement integer
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| H A D | 03-codebook.tex | 96 4) [length] = read a five bit unsigned integer;
107 7) [length] = read a five bit unsigned integer;
122 2) [current_length] = read a five bit unsigned integer and add 1;
123 3) [number] = read \link{vorbis:spec:ilog}{ilog}([codebook_entries] - [current_entry]) bits as an unsigned integer
149 The lookup table type is read as a four bit unsigned integer:
151 1) [codebook_lookup_type] = read four bits as an unsigned integer
169 1) [codebook_minimum_value] = \link{vorbis:spec:float32:unpack}{float32_unpack}( read 32 bits as an unsigned integer)
170 2) [codebook_delta_value] = \link{vorbis:spec:float32:unpack}{float32_unpack}( read 32 bits as an unsigned integer)
171 3) [codebook_value_bits] = read 4 bits as an unsigned integer and add 1
316 4) [multiplicand_offset] = ( [lookup_offset] divided by [index_divisor] using integer
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| H A D | 04-codec.tex | 51 1) [vorbis_version] = read 32 bits as unsigned integer
52 2) [audio_channels] = read 8 bit integer as unsigned
53 3) [audio_sample_rate] = read 32 bits as unsigned integer
54 4) [bitrate_maximum] = read 32 bits as signed integer
55 5) [bitrate_nominal] = read 32 bits as signed integer
56 6) [bitrate_minimum] = read 32 bits as signed integer
57 7) [blocksize_0] = 2 exponent (read 4 bits as unsigned integer)
58 8) [blocksize_1] = 2 exponent (read 4 bits as unsigned integer)
110 \item \varname{[vorbis_codebook_count]} = read eight bits as unsigned integer and add one
126 \item \varname{[vorbis_time_count]} = read 6 bits as unsigned integer an
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| H A D | 05-comment.tex | 49 1) [vendor_length] = read an unsigned integer of 32 bits
51 3) [user_comment_list_length] = read an unsigned integer of 32 bits
53 5) [length] = read an unsigned integer of 32 bits
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| H A D | 06-floor0.tex | 20 Floor zero configuration consists of six integer fields and a list of
31 1) [floor0_order] = read an unsigned integer of 8 bits
32 2) [floor0_rate] = read an unsigned integer of 16 bits
33 3) [floor0_bark_map_size] = read an unsigned integer of 16 bits
34 4) [floor0_amplitude_bits] = read an unsigned integer of six bits
35 5) [floor0_amplitude_offset] = read an unsigned integer of eight bits
36 6) [floor0_number_of_books] = read an unsigned integer of four bits and add 1
58 1) [amplitude] = read an unsigned integer of [floor0_amplitude_bits] bits
61 4) [booknumber] = read an unsigned integer of \link{vorbis:spec:ilog}{ilog}( [floor0_number_of_books] ) bits
106 Given an \varname{[amplitude]} integer an
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| H A D | 07-floor1.tex | 11 amplitude axis. The integer plotting algorithm used is similar to
86 A more efficient algorithm with carefully defined integer rounding
90 accumulation through integer roundoff/truncation.
114 1) [floor1_partitions] = read 5 bits as unsigned integer
118 4) vector [floor1_partition_class_list] element [i] = read 4 bits as unsigned integer
122 5) [maximum_class] = largest integer scalar value in vector [floor1_partition_class_list]
125 7) vector [floor1_class_dimensions] element [i] = read 3 bits as unsigned integer and add 1
126 8) vector [floor1_class_subclasses] element [i] = read 2 bits as unsigned integer
129 10) vector [floor1_class_masterbooks] element [i] = read 8 bits as unsigned integer
136 read 8 bits as unsigned integer an
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| H A D | 08-residue.tex | 43 important to note that the integer division truncates. In the below
52 is also partitioned into chunks. The integer elements of each scalar
115 must be an integer multiple of the codebook dimension, although
159 1) [residue_begin] = read 24 bits as unsigned integer
160 2) [residue_end] = read 24 bits as unsigned integer
161 3) [residue_partition_size] = read 24 bits as unsigned integer and add one
162 4) [residue_classifications] = read 6 bits as unsigned integer and add one
163 5) [residue_classbook] = read 8 bits as unsigned integer
197 3) [low_bits] = read 3 bits as unsigned integer
199 5) if ( [bitflag] is set ) then [high_bits] = read five bits as unsigned integer
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| H A D | 09-helper.tex | 17 The "ilog(x)" function returns the position number (1 through n) of the highest set bit in the two's complement integer value
75 integer value for which \varname{[return_value]} to the power of
101 integer algorithm to solve for the point directly without calculating
109 5) [off] = [err] / [adx] using integer division
127 Floor decode type one uses the integer line drawing algorithm of
128 "render_line(x0, y0, x1, y1, v)" to construct an integer floor
130 been relevant elsewhere, but here we must define integer division as
138 4) [base] = [dy] / [adx] using integer division
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| /netgear-WNDR4500v2-V1.0.0.60_1.0.38/ap/gpl/mtools-4.0.10/ |
| H A D | texinfo.tex | 3506 % An @enumerate whose labels are integers. The starting integer is
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| /netgear-WNDR4500v2-V1.0.0.60_1.0.38/ap/gpl/openssl/crypto/asn1/ |
| H A D | asn1.h | 452 ASN1_INTEGER * integer; member in union:asn1_type_st::__anon1373
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| /netgear-WNDR4500v2-V1.0.0.60_1.0.38/ap/gpl/openssl/crypto/bn/asm/ |
| H A D | pa-risc2.s | 43 ; For the integer registers
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| H A D | pa-risc2W.s | 37 ; For the integer registers
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| /netgear-WNDR4500v2-V1.0.0.60_1.0.38/ap/gpl/openssl/crypto/evp/ |
| H A D | evp_pkey.c | 119 /* PKCS#8 DSA is weird: you just get a private key integer
158 privkey = t2->value.integer;
335 /* Get private key into integer */
373 if (!(ttmp->value.integer =
388 ttmp->value.integer = prkey;
435 ttmp->value.integer = prkey;
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| /netgear-WNDR4500v2-V1.0.0.60_1.0.38/ap/gpl/openssl/crypto/pkcs7/ |
| H A D | pk7_attr.c | 110 /* Basic smime-capabilities OID and optional integer arg */
135 alg->parameter->value.integer = nbit;
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| /netgear-WNDR4500v2-V1.0.0.60_1.0.38/ap/gpl/openssl/include/openssl/ |
| H A D | asn1.h | 452 ASN1_INTEGER * integer; member in union:asn1_type_st::__anon1456
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| /netgear-WNDR4500v2-V1.0.0.60_1.0.38/ap/gpl/ppp-2.4.4/pppd/plugins/rp-pppoe/ |
| H A D | pppoe.h | 111 /* Define various integer types -- assumes a char is 8 bits */
117 #error Could not find a 16-bit integer type
127 #error Could not find a 16-bit integer type
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| /netgear-WNDR4500v2-V1.0.0.60_1.0.38/ap/gpl/samba-3.0.13/source/printing/ |
| H A D | print_cups.c | 854 job_id = attr->values[0].integer;
858 job_k_octets = attr->values[0].integer;
862 job_priority = attr->values[0].integer;
866 job_status = (ipp_jstate_t)(attr->values[0].integer);
870 job_time = attr->values[0].integer;
966 if (attr->values[0].integer == IPP_PRINTER_STOPPED)
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| /netgear-WNDR4500v2-V1.0.0.60_1.0.38/ap/gpl/timemachine/db-4.7.25.NC/test/ |
| H A D | testutils.tcl | 814 # that will fit into a 32-bit integer.
2654 set olines [lsort -integer $ilines]
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| /netgear-WNDR4500v2-V1.0.0.60_1.0.38/ap/gpl/timemachine/gettext-0.17/build-aux/ |
| H A D | texinfo.tex | 3273 % An @enumerate whose labels are integers. The starting integer is
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| /netgear-WNDR4500v2-V1.0.0.60_1.0.38/ap/gpl/timemachine/gettext-0.17/gettext-tools/gnulib-lib/ |
| H A D | tparm.c | 60 int integer; member in struct:arg_str
94 arg_list[argcnt++].integer = (int) va_arg (tparm_args, int);
103 *(int *)p = arg_list[argnum].integer;
111 *(int *)p = arg_list[argcnt++].integer = (int) va_arg (tparm_args, int);
407 arg_list[termcap - 1].integer = val;
414 arg_list[termcap - 1].integer = c + i;
446 arg_list[termcap - 1].integer = c - i;
534 arg_list[1].integer = arg_list[0].integer;
535 arg_list[0].integer
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| /netgear-WNDR4500v2-V1.0.0.60_1.0.38/ap/gpl/timemachine/gettext-0.17/gettext-tools/gnulib-lib/uniname/ |
| H A D | gen-uninames.lisp | 9 (code nil :type integer)
34 (code (parse-integer code-string :radix 16))
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| /netgear-WNDR4500v2-V1.0.0.60_1.0.38/ap/gpl/timemachine/gettext-0.17/gettext-tools/libgrep/ |
| H A D | regex.c | 1455 long int integer;
1482 int integer;
1567 /* This pushes an integer-valued item onto the failure stack.
1571 fail_stack.stack[fail_stack.avail++].integer = (item)
1582 # define POP_FAILURE_INT() fail_stack.stack[--fail_stack.avail].integer
1783 reg_info[this_reg].word.integer = 0; \
4236 /* Store OP at LOC followed by two-byte integer parameter ARG. */
4237 /* ifdef WCHAR, integer parameter is 1 wchar_t. */
4248 /* ifdef WCHAR, integer parameter is 1 wchar_t. */
4260 for OP followed by two-byte integer paramete
1445 long int integer; local
1472 int integer; local
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| /netgear-WNDR4500v2-V1.0.0.60_1.0.38/ap/gpl/timemachine/gettext-0.17/gnulib-local/lib/ |
| H A D | tparm.c | 60 int integer; member in struct:arg_str
94 arg_list[argcnt++].integer = (int) va_arg (tparm_args, int);
103 *(int *)p = arg_list[argnum].integer;
111 *(int *)p = arg_list[argcnt++].integer = (int) va_arg (tparm_args, int);
407 arg_list[termcap - 1].integer = val;
414 arg_list[termcap - 1].integer = c + i;
446 arg_list[termcap - 1].integer = c - i;
534 arg_list[1].integer = arg_list[0].integer;
535 arg_list[0].integer
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