Merge branch 'master' into new_ui
commit
8654bfe921
|
@ -26,7 +26,7 @@ M: array box-return drop "void*" box-return ;
|
|||
|
||||
M: array stack-size drop "void*" stack-size ;
|
||||
|
||||
M: array c-type-boxer-quot drop f ;
|
||||
M: array c-type-boxer-quot drop [ ] ;
|
||||
|
||||
M: array c-type-unboxer-quot drop [ >c-ptr ] ;
|
||||
|
||||
|
|
|
@ -4,7 +4,7 @@ USING: byte-arrays arrays assocs kernel kernel.private libc math
|
|||
namespaces make parser sequences strings words assocs splitting
|
||||
math.parser cpu.architecture alien alien.accessors quotations
|
||||
layouts system compiler.units io.files io.encodings.binary
|
||||
accessors combinators effects continuations fry call ;
|
||||
accessors combinators effects continuations fry call classes ;
|
||||
IN: alien.c-types
|
||||
|
||||
DEFER: <int>
|
||||
|
@ -13,18 +13,20 @@ DEFER: *char
|
|||
: little-endian? ( -- ? ) 1 <int> *char 1 = ; foldable
|
||||
|
||||
TUPLE: c-type
|
||||
class
|
||||
boxer boxer-quot unboxer unboxer-quot
|
||||
getter setter
|
||||
reg-class size align stack-align? ;
|
||||
|
||||
: new-c-type ( class -- type )
|
||||
new
|
||||
int-regs >>reg-class
|
||||
object >>class ; inline
|
||||
{ class class initial: object }
|
||||
boxer
|
||||
{ boxer-quot callable }
|
||||
unboxer
|
||||
{ unboxer-quot callable }
|
||||
{ getter callable }
|
||||
{ setter callable }
|
||||
{ reg-class initial: int-regs }
|
||||
size
|
||||
align
|
||||
stack-align? ;
|
||||
|
||||
: <c-type> ( -- type )
|
||||
\ c-type new-c-type ;
|
||||
\ c-type new ;
|
||||
|
||||
SYMBOL: c-types
|
||||
|
||||
|
@ -185,6 +187,9 @@ M: f byte-length drop 0 ;
|
|||
[ "Cannot read struct fields with this type" throw ]
|
||||
] unless* ;
|
||||
|
||||
: c-type-getter-boxer ( name -- quot )
|
||||
[ c-getter ] [ c-type-boxer-quot ] bi append ;
|
||||
|
||||
: c-setter ( name -- quot )
|
||||
c-type-setter [
|
||||
[ "Cannot write struct fields with this type" throw ]
|
||||
|
@ -221,7 +226,7 @@ M: f byte-length drop 0 ;
|
|||
TUPLE: long-long-type < c-type ;
|
||||
|
||||
: <long-long-type> ( -- type )
|
||||
long-long-type new-c-type ;
|
||||
long-long-type new ;
|
||||
|
||||
M: long-long-type unbox-parameter ( n type -- )
|
||||
c-type-unboxer %unbox-long-long ;
|
||||
|
|
|
@ -15,4 +15,4 @@ C-STRUCT: complex-holder
|
|||
C{ 1.0 2.0 } <complex-holder> "h" set
|
||||
] unit-test
|
||||
|
||||
[ C{ 1.0 2.0 } ] [ "h" get complex-holder-z ] unit-test
|
||||
[ C{ 1.0 2.0 } ] [ "h" get complex-holder-z ] unit-test
|
||||
|
|
|
@ -12,15 +12,15 @@ T-imaginary DEFINES ${T}-imaginary
|
|||
set-T-real DEFINES set-${T}-real
|
||||
set-T-imaginary DEFINES set-${T}-imaginary
|
||||
|
||||
>T DEFINES >${T}
|
||||
T> DEFINES ${T}>
|
||||
<T> DEFINES <${T}>
|
||||
*T DEFINES *${T}
|
||||
|
||||
WHERE
|
||||
|
||||
: >T ( z -- alien )
|
||||
: <T> ( z -- alien )
|
||||
>rect T <c-object> [ set-T-imaginary ] [ set-T-real ] [ ] tri ; inline
|
||||
|
||||
: T> ( alien -- z )
|
||||
: *T ( alien -- z )
|
||||
[ T-real ] [ T-imaginary ] bi rect> ; inline
|
||||
|
||||
T in get
|
||||
|
@ -28,8 +28,8 @@ T in get
|
|||
define-struct
|
||||
|
||||
T c-type
|
||||
T> 1quotation >>boxer-quot
|
||||
>T 1quotation >>unboxer-quot
|
||||
<T> 1quotation >>unboxer-quot
|
||||
*T 1quotation >>boxer-quot
|
||||
drop
|
||||
|
||||
;FUNCTOR
|
||||
;FUNCTOR
|
||||
|
|
|
@ -0,0 +1,56 @@
|
|||
! Copyright (C) 2009 Joe Groff
|
||||
! See http://factorcode.org/license.txt for BSD license.
|
||||
USING: help.markup help.syntax kernel quotations sequences strings ;
|
||||
QUALIFIED-WITH: alien.syntax c
|
||||
IN: alien.fortran
|
||||
|
||||
ARTICLE: "alien.fortran-types" "Fortran types"
|
||||
"The Fortran FFI recognizes the following Fortran types:"
|
||||
{ $list
|
||||
{ { $snippet "INTEGER" } " specifies a four-byte integer value. Sized integers can be specified with " { $snippet "INTEGER*1" } ", " { $snippet "INTEGER*2" } ", " { $snippet "INTEGER*4" } ", and " { $snippet "INTEGER*8" } "." }
|
||||
{ { $snippet "LOGICAL" } " specifies a four-byte boolean value. Sized booleans can be specified with " { $snippet "LOGICAL*1" } ", " { $snippet "LOGICAL*2" } ", " { $snippet "LOGICAL*4" } ", and " { $snippet "LOGICAL*8" } "." }
|
||||
{ { $snippet "REAL" } " specifies a single-precision floating-point real value." }
|
||||
{ { $snippet "DOUBLE-PRECISION" } " specifies a double-precision floating-point real value. The alias " { $snippet "REAL*8" } " is also recognized." }
|
||||
{ { $snippet "COMPLEX" } " specifies a single-precision floating-point complex value." }
|
||||
{ { $snippet "DOUBLE-COMPLEX" } " specifies a double-precision floating-point complex value. The alias " { $snippet "COMPLEX*16" } " is also recognized." }
|
||||
{ { $snippet "CHARACTER(n)" } " specifies a character string of length " { $snippet "n" } ". The Fortran 77 syntax " { $snippet "CHARACTER*n" } " is also recognized." }
|
||||
{ "Fortran arrays can be specified by suffixing a comma-separated set of dimensions in parentheses, e.g. " { $snippet "REAL(2,3,4)" } ". Arrays of unspecified length can be specified using " { $snippet "*" } " as a dimension. Arrays are passed in as flat " { $link "specialized-arrays" } "." }
|
||||
{ "Fortran records defined by " { $link POSTPONE: RECORD: } " and C structs defined by " { $link POSTPONE: c:C-STRUCT: } " are also supported as parameters." }
|
||||
}
|
||||
"When declaring the parameters of Fortran functions, an output argument can be specified by prefixing an exclamation point to the type name. This will cause the function word to leave the final value of the parameter on the stack." ;
|
||||
|
||||
HELP: FUNCTION:
|
||||
{ $syntax "FUNCTION: RETURN-TYPE NAME ( [!]ARGUMENT-TYPE NAME, ... ) ;" }
|
||||
{ $description "Declares a Fortran function binding with the given return type and arguments. See " { $link "alien.fortran-types" } " for a list of supported types." } ;
|
||||
|
||||
HELP: SUBROUTINE:
|
||||
{ $syntax "SUBROUTINE: NAME ( [!]ARGUMENT-TYPE NAME, ... ) ;" }
|
||||
{ $description "Declares a Fortran subroutine binding with the given arguments. See " { $link "alien.fortran-types" } " for a list of supported types." } ;
|
||||
|
||||
HELP: LIBRARY:
|
||||
{ $syntax "LIBRARY: name" }
|
||||
{ $values { "name" "a logical library name" } }
|
||||
{ $description "Sets the logical library for subsequent " { $link POSTPONE: FUNCTION: } " and " { $link POSTPONE: SUBROUTINE: } " definitions." } ;
|
||||
|
||||
HELP: RECORD:
|
||||
{ $syntax "RECORD: NAME { \"TYPE\" \"SLOT\" } ... ;" }
|
||||
{ $description "Defines a Fortran record type with the given slots." } ;
|
||||
|
||||
HELP: fortran-invoke
|
||||
{ $values
|
||||
{ "return" string } { "library" string } { "procedure" string } { "parameters" sequence }
|
||||
}
|
||||
{ $description "Invokes the Fortran subroutine or function " { $snippet "procedure" } " in " { $snippet "library" } " with parameters specified by the " { $link "alien.fortran-types" } " specified in the " { $snippet "parameters" } " sequence. If the " { $snippet "return" } " value is " { $link f } ", no return value is expected, otherwise a return value of the specified Fortran type is expected. Input values are taken off the top of the datastack, and output values are left for the return value (if any) and any parameters specified as out parameters by prepending " { $snippet "\"!\"" } "." }
|
||||
;
|
||||
|
||||
ARTICLE: "alien.fortran" "Fortran FFI"
|
||||
"The " { $vocab-link "alien.fortran" } " vocabulary provides an interface to code shared libraries written in Fortran."
|
||||
{ $subsection "alien.fortran-types" }
|
||||
{ $subsection POSTPONE: LIBRARY: }
|
||||
{ $subsection POSTPONE: FUNCTION: }
|
||||
{ $subsection POSTPONE: SUBROUTINE: }
|
||||
{ $subsection POSTPONE: RECORD: }
|
||||
{ $subsection fortran-invoke }
|
||||
;
|
||||
|
||||
ABOUT: "alien.fortran"
|
|
@ -0,0 +1,295 @@
|
|||
! (c) 2009 Joe Groff, see BSD license
|
||||
USING: accessors alien alien.c-types alien.complex
|
||||
alien.fortran alien.strings alien.structs alien.syntax arrays
|
||||
assocs byte-arrays combinators fry generalizations
|
||||
io.encodings.ascii kernel macros macros.expander namespaces
|
||||
sequences shuffle tools.test ;
|
||||
IN: alien.fortran.tests
|
||||
|
||||
RECORD: FORTRAN_TEST_RECORD
|
||||
{ "INTEGER" "FOO" }
|
||||
{ "REAL(2)" "BAR" }
|
||||
{ "CHARACTER*4" "BAS" } ;
|
||||
|
||||
! fortran-name>symbol-name
|
||||
|
||||
[ "fun_" ] [ "FUN" fortran-name>symbol-name ] unit-test
|
||||
[ "fun_times__" ] [ "Fun_Times" fortran-name>symbol-name ] unit-test
|
||||
[ "funtimes___" ] [ "FunTimes_" fortran-name>symbol-name ] unit-test
|
||||
|
||||
! fortran-type>c-type
|
||||
|
||||
[ "short" ]
|
||||
[ "integer*2" fortran-type>c-type ] unit-test
|
||||
|
||||
[ "int" ]
|
||||
[ "integer*4" fortran-type>c-type ] unit-test
|
||||
|
||||
[ "int" ]
|
||||
[ "INTEGER" fortran-type>c-type ] unit-test
|
||||
|
||||
[ "longlong" ]
|
||||
[ "iNteger*8" fortran-type>c-type ] unit-test
|
||||
|
||||
[ "int[0]" ]
|
||||
[ "integer(*)" fortran-type>c-type ] unit-test
|
||||
|
||||
[ "int[0]" ]
|
||||
[ "integer(3,*)" fortran-type>c-type ] unit-test
|
||||
|
||||
[ "int[3]" ]
|
||||
[ "integer(3)" fortran-type>c-type ] unit-test
|
||||
|
||||
[ "int[6]" ]
|
||||
[ "integer(3,2)" fortran-type>c-type ] unit-test
|
||||
|
||||
[ "int[24]" ]
|
||||
[ "integer(4,3,2)" fortran-type>c-type ] unit-test
|
||||
|
||||
[ "char[1]" ]
|
||||
[ "character" fortran-type>c-type ] unit-test
|
||||
|
||||
[ "char[17]" ]
|
||||
[ "character*17" fortran-type>c-type ] unit-test
|
||||
|
||||
[ "char[17]" ]
|
||||
[ "character(17)" fortran-type>c-type ] unit-test
|
||||
|
||||
[ "int" ]
|
||||
[ "logical" fortran-type>c-type ] unit-test
|
||||
|
||||
[ "float" ]
|
||||
[ "real" fortran-type>c-type ] unit-test
|
||||
|
||||
[ "double" ]
|
||||
[ "double-precision" fortran-type>c-type ] unit-test
|
||||
|
||||
[ "float" ]
|
||||
[ "real*4" fortran-type>c-type ] unit-test
|
||||
|
||||
[ "double" ]
|
||||
[ "real*8" fortran-type>c-type ] unit-test
|
||||
|
||||
[ "complex-float" ]
|
||||
[ "complex" fortran-type>c-type ] unit-test
|
||||
|
||||
[ "complex-double" ]
|
||||
[ "double-complex" fortran-type>c-type ] unit-test
|
||||
|
||||
[ "complex-float" ]
|
||||
[ "complex*8" fortran-type>c-type ] unit-test
|
||||
|
||||
[ "complex-double" ]
|
||||
[ "complex*16" fortran-type>c-type ] unit-test
|
||||
|
||||
[ "fortran_test_record" ]
|
||||
[ "fortran_test_record" fortran-type>c-type ] unit-test
|
||||
|
||||
! fortran-arg-type>c-type
|
||||
|
||||
[ "int*" { } ]
|
||||
[ "integer" fortran-arg-type>c-type ] unit-test
|
||||
|
||||
[ "int*" { } ]
|
||||
[ "integer(3)" fortran-arg-type>c-type ] unit-test
|
||||
|
||||
[ "int*" { } ]
|
||||
[ "integer(*)" fortran-arg-type>c-type ] unit-test
|
||||
|
||||
[ "fortran_test_record*" { } ]
|
||||
[ "fortran_test_record" fortran-arg-type>c-type ] unit-test
|
||||
|
||||
[ "char*" { "long" } ]
|
||||
[ "character" fortran-arg-type>c-type ] unit-test
|
||||
|
||||
[ "char*" { "long" } ]
|
||||
[ "character(17)" fortran-arg-type>c-type ] unit-test
|
||||
|
||||
! fortran-ret-type>c-type
|
||||
|
||||
[ "void" { "char*" "long" } ]
|
||||
[ "character(17)" fortran-ret-type>c-type ] unit-test
|
||||
|
||||
[ "int" { } ]
|
||||
[ "integer" fortran-ret-type>c-type ] unit-test
|
||||
|
||||
[ "int" { } ]
|
||||
[ "logical" fortran-ret-type>c-type ] unit-test
|
||||
|
||||
[ "float" { } ]
|
||||
[ "real" fortran-ret-type>c-type ] unit-test
|
||||
|
||||
[ "double" { } ]
|
||||
[ "double-precision" fortran-ret-type>c-type ] unit-test
|
||||
|
||||
[ "void" { "complex-float*" } ]
|
||||
[ "complex" fortran-ret-type>c-type ] unit-test
|
||||
|
||||
[ "void" { "complex-double*" } ]
|
||||
[ "double-complex" fortran-ret-type>c-type ] unit-test
|
||||
|
||||
[ "void" { "int*" } ]
|
||||
[ "integer(*)" fortran-ret-type>c-type ] unit-test
|
||||
|
||||
[ "void" { "fortran_test_record*" } ]
|
||||
[ "fortran_test_record" fortran-ret-type>c-type ] unit-test
|
||||
|
||||
! fortran-sig>c-sig
|
||||
|
||||
[ "float" { "int*" "char*" "float*" "double*" "long" } ]
|
||||
[ "real" { "integer" "character*17" "real" "real*8" } fortran-sig>c-sig ]
|
||||
unit-test
|
||||
|
||||
[ "void" { "char*" "long" "char*" "char*" "int*" "long" "long" } ]
|
||||
[ "character*18" { "character*17" "character" "integer" } fortran-sig>c-sig ]
|
||||
unit-test
|
||||
|
||||
[ "void" { "complex-float*" "char*" "char*" "int*" "long" "long" } ]
|
||||
[ "complex" { "character*17" "character" "integer" } fortran-sig>c-sig ]
|
||||
unit-test
|
||||
|
||||
! fortran-record>c-struct
|
||||
|
||||
[ {
|
||||
{ "double" "ex" }
|
||||
{ "float" "wye" }
|
||||
{ "int" "zee" }
|
||||
{ "char[20]" "woo" }
|
||||
} ] [
|
||||
{
|
||||
{ "DOUBLE-PRECISION" "EX" }
|
||||
{ "REAL" "WYE" }
|
||||
{ "INTEGER" "ZEE" }
|
||||
{ "CHARACTER(20)" "WOO" }
|
||||
} fortran-record>c-struct
|
||||
] unit-test
|
||||
|
||||
! RECORD:
|
||||
|
||||
[ 16 ] [ "fortran_test_record" heap-size ] unit-test
|
||||
[ 0 ] [ "foo" "fortran_test_record" offset-of ] unit-test
|
||||
[ 4 ] [ "bar" "fortran_test_record" offset-of ] unit-test
|
||||
[ 12 ] [ "bas" "fortran_test_record" offset-of ] unit-test
|
||||
|
||||
! (fortran-invoke)
|
||||
|
||||
[ [
|
||||
! [fortran-args>c-args]
|
||||
{
|
||||
[ {
|
||||
[ ascii string>alien ]
|
||||
[ <longlong> ]
|
||||
[ <float> ]
|
||||
[ <complex-float> ]
|
||||
[ 1 0 ? <short> ]
|
||||
} spread ]
|
||||
[ { [ length ] [ drop ] [ drop ] [ drop ] [ drop ] } spread ]
|
||||
} 5 ncleave
|
||||
! [fortran-invoke]
|
||||
[
|
||||
"void" "funpack" "funtimes_"
|
||||
{ "char*" "longlong*" "float*" "complex-float*" "short*" "long" }
|
||||
alien-invoke
|
||||
] 6 nkeep
|
||||
! [fortran-results>]
|
||||
shuffle( aa ba ca da ea ab -- aa ab ba ca da ea )
|
||||
{
|
||||
[ drop ]
|
||||
[ drop ]
|
||||
[ drop ]
|
||||
[ *float ]
|
||||
[ drop ]
|
||||
[ drop ]
|
||||
} spread
|
||||
] ] [
|
||||
f "funpack" "FUNTIMES" { "CHARACTER*12" "INTEGER*8" "!REAL" "COMPLEX" "LOGICAL*2" }
|
||||
(fortran-invoke)
|
||||
] unit-test
|
||||
|
||||
[ [
|
||||
! [fortran-args>c-args]
|
||||
{
|
||||
[ { [ ] } spread ]
|
||||
[ { [ drop ] } spread ]
|
||||
} 1 ncleave
|
||||
! [fortran-invoke]
|
||||
[ "float" "funpack" "fun_times__" { "float*" } alien-invoke ]
|
||||
1 nkeep
|
||||
! [fortran-results>]
|
||||
shuffle( reta aa -- reta aa )
|
||||
{ [ ] [ drop ] } spread
|
||||
] ] [
|
||||
"REAL" "funpack" "FUN_TIMES" { "REAL(*)" }
|
||||
(fortran-invoke)
|
||||
] unit-test
|
||||
|
||||
[ [
|
||||
! [<fortran-result>]
|
||||
[ "complex-float" <c-object> ] 1 ndip
|
||||
! [fortran-args>c-args]
|
||||
{ [ { [ ] } spread ] [ { [ drop ] } spread ] } 1 ncleave
|
||||
! [fortran-invoke]
|
||||
[
|
||||
"void" "funpack" "fun_times__"
|
||||
{ "complex-float*" "float*" }
|
||||
alien-invoke
|
||||
] 2 nkeep
|
||||
! [fortran-results>]
|
||||
shuffle( reta aa -- reta aa )
|
||||
{ [ *complex-float ] [ drop ] } spread
|
||||
] ] [
|
||||
"COMPLEX" "funpack" "FUN_TIMES" { "REAL(*)" }
|
||||
(fortran-invoke)
|
||||
] unit-test
|
||||
|
||||
[ [
|
||||
! [<fortran-result>]
|
||||
[ 20 <byte-array> 20 ] 0 ndip
|
||||
! [fortran-invoke]
|
||||
[
|
||||
"void" "funpack" "fun_times__"
|
||||
{ "char*" "long" }
|
||||
alien-invoke
|
||||
] 2 nkeep
|
||||
! [fortran-results>]
|
||||
shuffle( reta retb -- reta retb )
|
||||
{ [ ] [ ascii alien>nstring ] } spread
|
||||
] ] [
|
||||
"CHARACTER*20" "funpack" "FUN_TIMES" { }
|
||||
(fortran-invoke)
|
||||
] unit-test
|
||||
|
||||
[ [
|
||||
! [<fortran-result>]
|
||||
[ 10 <byte-array> 10 ] 3 ndip
|
||||
! [fortran-args>c-args]
|
||||
{
|
||||
[ {
|
||||
[ ascii string>alien ]
|
||||
[ <float> ]
|
||||
[ ascii string>alien ]
|
||||
} spread ]
|
||||
[ { [ length ] [ drop ] [ length ] } spread ]
|
||||
} 3 ncleave
|
||||
! [fortran-invoke]
|
||||
[
|
||||
"void" "funpack" "fun_times__"
|
||||
{ "char*" "long" "char*" "float*" "char*" "long" "long" }
|
||||
alien-invoke
|
||||
] 7 nkeep
|
||||
! [fortran-results>]
|
||||
shuffle( reta retb aa ba ca ab cb -- reta retb aa ab ba ca cb )
|
||||
{
|
||||
[ ]
|
||||
[ ascii alien>nstring ]
|
||||
[ ]
|
||||
[ ascii alien>nstring ]
|
||||
[ *float ]
|
||||
[ ]
|
||||
[ ascii alien>nstring ]
|
||||
} spread
|
||||
] ] [
|
||||
"CHARACTER*10" "funpack" "FUN_TIMES" { "!CHARACTER*20" "!REAL" "!CHARACTER*30" }
|
||||
(fortran-invoke)
|
||||
] unit-test
|
||||
|
|
@ -0,0 +1,391 @@
|
|||
! (c) 2009 Joe Groff, see BSD license
|
||||
USING: accessors alien alien.c-types alien.complex alien.parser
|
||||
alien.strings alien.structs alien.syntax arrays ascii assocs
|
||||
byte-arrays combinators combinators.short-circuit fry generalizations
|
||||
kernel lexer macros math math.parser namespaces parser sequences
|
||||
splitting stack-checker vectors vocabs.parser words locals
|
||||
io.encodings.ascii io.encodings.string shuffle effects math.ranges
|
||||
math.order sorting system ;
|
||||
IN: alien.fortran
|
||||
|
||||
! XXX this currently only supports the gfortran/f2c abi.
|
||||
! XXX we should also support ifort at some point for commercial BLASes
|
||||
|
||||
<<
|
||||
: add-f2c-libraries ( -- )
|
||||
"I77" "libI77.so" "cdecl" add-library
|
||||
"F77" "libF77.so" "cdecl" add-library ;
|
||||
|
||||
os netbsd? [ add-f2c-libraries ] when
|
||||
>>
|
||||
|
||||
: alien>nstring ( alien len encoding -- string )
|
||||
[ memory>byte-array ] dip decode ;
|
||||
|
||||
: fortran-name>symbol-name ( fortran-name -- c-name )
|
||||
>lower CHAR: _ over member?
|
||||
[ "__" append ] [ "_" append ] if ;
|
||||
|
||||
ERROR: invalid-fortran-type type ;
|
||||
|
||||
DEFER: fortran-sig>c-sig
|
||||
DEFER: fortran-ret-type>c-type
|
||||
DEFER: fortran-arg-type>c-type
|
||||
|
||||
<PRIVATE
|
||||
|
||||
TUPLE: fortran-type dims size out? ;
|
||||
|
||||
TUPLE: number-type < fortran-type ;
|
||||
TUPLE: integer-type < number-type ;
|
||||
TUPLE: logical-type < integer-type ;
|
||||
TUPLE: real-type < number-type ;
|
||||
TUPLE: double-precision-type < number-type ;
|
||||
|
||||
TUPLE: character-type < fortran-type ;
|
||||
TUPLE: misc-type < fortran-type name ;
|
||||
|
||||
TUPLE: complex-type < number-type ;
|
||||
TUPLE: real-complex-type < complex-type ;
|
||||
TUPLE: double-complex-type < complex-type ;
|
||||
|
||||
CONSTANT: fortran>c-types H{
|
||||
{ "character" character-type }
|
||||
{ "integer" integer-type }
|
||||
{ "logical" logical-type }
|
||||
{ "real" real-type }
|
||||
{ "double-precision" double-precision-type }
|
||||
{ "complex" real-complex-type }
|
||||
{ "double-complex" double-complex-type }
|
||||
}
|
||||
|
||||
: append-dimensions ( base-c-type type -- c-type )
|
||||
dims>>
|
||||
[ product number>string "[" "]" surround append ] when* ;
|
||||
|
||||
MACRO: size-case-type ( cases -- )
|
||||
[ invalid-fortran-type ] suffix
|
||||
'[ [ size>> _ case ] [ append-dimensions ] bi ] ;
|
||||
|
||||
: simple-type ( type base-c-type -- c-type )
|
||||
swap
|
||||
[ dup size>> [ invalid-fortran-type ] [ drop ] if ]
|
||||
[ append-dimensions ] bi ;
|
||||
|
||||
: new-fortran-type ( out? dims size class -- type )
|
||||
new [ [ (>>size) ] [ (>>dims) ] [ (>>out?) ] tri ] keep ;
|
||||
|
||||
GENERIC: (fortran-type>c-type) ( type -- c-type )
|
||||
|
||||
M: f (fortran-type>c-type) drop "void" ;
|
||||
|
||||
M: integer-type (fortran-type>c-type)
|
||||
{
|
||||
{ f [ "int" ] }
|
||||
{ 1 [ "char" ] }
|
||||
{ 2 [ "short" ] }
|
||||
{ 4 [ "int" ] }
|
||||
{ 8 [ "longlong" ] }
|
||||
} size-case-type ;
|
||||
M: real-type (fortran-type>c-type)
|
||||
{
|
||||
{ f [ "float" ] }
|
||||
{ 4 [ "float" ] }
|
||||
{ 8 [ "double" ] }
|
||||
} size-case-type ;
|
||||
M: real-complex-type (fortran-type>c-type)
|
||||
{
|
||||
{ f [ "complex-float" ] }
|
||||
{ 8 [ "complex-float" ] }
|
||||
{ 16 [ "complex-double" ] }
|
||||
} size-case-type ;
|
||||
|
||||
M: double-precision-type (fortran-type>c-type)
|
||||
"double" simple-type ;
|
||||
M: double-complex-type (fortran-type>c-type)
|
||||
"complex-double" simple-type ;
|
||||
M: misc-type (fortran-type>c-type)
|
||||
dup name>> simple-type ;
|
||||
|
||||
: fix-character-type ( character-type -- character-type' )
|
||||
clone dup size>>
|
||||
[ dup dims>> [ invalid-fortran-type ] [ dup size>> 1array >>dims f >>size ] if ]
|
||||
[ dup dims>> [ ] [ { 1 } >>dims ] if ] if ;
|
||||
|
||||
M: character-type (fortran-type>c-type)
|
||||
fix-character-type "char" simple-type ;
|
||||
|
||||
: dimension>number ( string -- number )
|
||||
dup "*" = [ drop 0 ] [ string>number ] if ;
|
||||
|
||||
: parse-out ( string -- string' out? )
|
||||
"!" ?head ;
|
||||
|
||||
: parse-dims ( string -- string' dim )
|
||||
"(" split1 dup
|
||||
[ ")" ?tail drop "," split [ [ blank? ] trim dimension>number ] map ] when ;
|
||||
|
||||
: parse-size ( string -- string' size )
|
||||
"*" split1 dup [ string>number ] when ;
|
||||
|
||||
: (parse-fortran-type) ( fortran-type-string -- type )
|
||||
parse-out swap parse-dims swap parse-size swap
|
||||
dup >lower fortran>c-types at*
|
||||
[ nip new-fortran-type ] [ drop misc-type boa ] if ;
|
||||
|
||||
: parse-fortran-type ( fortran-type-string/f -- type/f )
|
||||
dup [ (parse-fortran-type) ] when ;
|
||||
|
||||
: c-type>pointer ( c-type -- c-type* )
|
||||
"[" split1 drop "*" append ;
|
||||
|
||||
GENERIC: added-c-args ( type -- args )
|
||||
|
||||
M: fortran-type added-c-args drop { } ;
|
||||
M: character-type added-c-args drop { "long" } ;
|
||||
|
||||
GENERIC: returns-by-value? ( type -- ? )
|
||||
|
||||
M: f returns-by-value? drop t ;
|
||||
M: fortran-type returns-by-value? drop f ;
|
||||
M: number-type returns-by-value? dims>> not ;
|
||||
M: complex-type returns-by-value? drop f ;
|
||||
|
||||
GENERIC: (fortran-ret-type>c-type) ( type -- c-type )
|
||||
|
||||
M: f (fortran-ret-type>c-type) drop "void" ;
|
||||
M: fortran-type (fortran-ret-type>c-type) (fortran-type>c-type) ;
|
||||
! XXX F2C claims to return double for REAL typed functions
|
||||
! XXX OSX Accelerate.framework uses float
|
||||
! M: real-type (fortran-ret-type>c-type) drop "double" ;
|
||||
|
||||
: suffix! ( seq elt -- seq ) over push ; inline
|
||||
: append! ( seq-a seq-b -- seq-a ) over push-all ; inline
|
||||
|
||||
GENERIC: (fortran-arg>c-args) ( type -- main-quot added-quot )
|
||||
|
||||
: args?dims ( type quot -- main-quot added-quot )
|
||||
[ dup dims>> [ drop [ ] [ drop ] ] ] dip if ; inline
|
||||
|
||||
M: integer-type (fortran-arg>c-args)
|
||||
[
|
||||
size>> {
|
||||
{ f [ [ <int> ] [ drop ] ] }
|
||||
{ 1 [ [ <char> ] [ drop ] ] }
|
||||
{ 2 [ [ <short> ] [ drop ] ] }
|
||||
{ 4 [ [ <int> ] [ drop ] ] }
|
||||
{ 8 [ [ <longlong> ] [ drop ] ] }
|
||||
[ invalid-fortran-type ]
|
||||
} case
|
||||
] args?dims ;
|
||||
|
||||
M: logical-type (fortran-arg>c-args)
|
||||
[ call-next-method [ [ 1 0 ? ] prepend ] dip ] args?dims ;
|
||||
|
||||
M: real-type (fortran-arg>c-args)
|
||||
[
|
||||
size>> {
|
||||
{ f [ [ <float> ] [ drop ] ] }
|
||||
{ 4 [ [ <float> ] [ drop ] ] }
|
||||
{ 8 [ [ <double> ] [ drop ] ] }
|
||||
[ invalid-fortran-type ]
|
||||
} case
|
||||
] args?dims ;
|
||||
|
||||
M: real-complex-type (fortran-arg>c-args)
|
||||
[
|
||||
size>> {
|
||||
{ f [ [ <complex-float> ] [ drop ] ] }
|
||||
{ 8 [ [ <complex-float> ] [ drop ] ] }
|
||||
{ 16 [ [ <complex-double> ] [ drop ] ] }
|
||||
[ invalid-fortran-type ]
|
||||
} case
|
||||
] args?dims ;
|
||||
|
||||
M: double-precision-type (fortran-arg>c-args)
|
||||
[ drop [ <double> ] [ drop ] ] args?dims ;
|
||||
|
||||
M: double-complex-type (fortran-arg>c-args)
|
||||
[ drop [ <complex-double> ] [ drop ] ] args?dims ;
|
||||
|
||||
M: character-type (fortran-arg>c-args)
|
||||
drop [ ascii string>alien ] [ length ] ;
|
||||
|
||||
M: misc-type (fortran-arg>c-args)
|
||||
drop [ ] [ drop ] ;
|
||||
|
||||
GENERIC: (fortran-result>) ( type -- quots )
|
||||
|
||||
: result?dims ( type quot -- quot )
|
||||
[ dup dims>> [ drop { [ ] } ] ] dip if ; inline
|
||||
|
||||
M: integer-type (fortran-result>)
|
||||
[ size>> {
|
||||
{ f [ { [ *int ] } ] }
|
||||
{ 1 [ { [ *char ] } ] }
|
||||
{ 2 [ { [ *short ] } ] }
|
||||
{ 4 [ { [ *int ] } ] }
|
||||
{ 8 [ { [ *longlong ] } ] }
|
||||
[ invalid-fortran-type ]
|
||||
} case ] result?dims ;
|
||||
|
||||
M: logical-type (fortran-result>)
|
||||
[ call-next-method first [ zero? not ] append 1array ] result?dims ;
|
||||
|
||||
M: real-type (fortran-result>)
|
||||
[ size>> {
|
||||
{ f [ { [ *float ] } ] }
|
||||
{ 4 [ { [ *float ] } ] }
|
||||
{ 8 [ { [ *double ] } ] }
|
||||
[ invalid-fortran-type ]
|
||||
} case ] result?dims ;
|
||||
|
||||
M: real-complex-type (fortran-result>)
|
||||
[ size>> {
|
||||
{ f [ { [ *complex-float ] } ] }
|
||||
{ 8 [ { [ *complex-float ] } ] }
|
||||
{ 16 [ { [ *complex-double ] } ] }
|
||||
[ invalid-fortran-type ]
|
||||
} case ] result?dims ;
|
||||
|
||||
M: double-precision-type (fortran-result>)
|
||||
[ drop { [ *double ] } ] result?dims ;
|
||||
|
||||
M: double-complex-type (fortran-result>)
|
||||
[ drop { [ *complex-double ] } ] result?dims ;
|
||||
|
||||
M: character-type (fortran-result>)
|
||||
drop { [ ] [ ascii alien>nstring ] } ;
|
||||
|
||||
M: misc-type (fortran-result>)
|
||||
drop { [ ] } ;
|
||||
|
||||
GENERIC: (<fortran-result>) ( type -- quot )
|
||||
|
||||
M: fortran-type (<fortran-result>)
|
||||
(fortran-type>c-type) \ <c-object> [ ] 2sequence ;
|
||||
|
||||
M: character-type (<fortran-result>)
|
||||
fix-character-type dims>> product dup
|
||||
[ \ <byte-array> ] dip [ ] 3sequence ;
|
||||
|
||||
: [<fortran-result>] ( return parameters -- quot )
|
||||
[ parse-fortran-type ] dip
|
||||
over returns-by-value?
|
||||
[ 2drop [ ] ]
|
||||
[ [ (<fortran-result>) ] [ length \ ndip [ ] 3sequence ] bi* ] if ;
|
||||
|
||||
: [fortran-args>c-args] ( parameters -- quot )
|
||||
[ [ ] ] [
|
||||
[ parse-fortran-type (fortran-arg>c-args) 2array ] map flip first2
|
||||
[ [ \ spread [ ] 2sequence ] bi@ 2array ] [ length ] bi
|
||||
\ ncleave [ ] 3sequence
|
||||
] if-empty ;
|
||||
|
||||
:: [fortran-invoke] ( [args>args] return library function parameters -- [args>args] quot )
|
||||
return parameters fortran-sig>c-sig :> c-parameters :> c-return
|
||||
function fortran-name>symbol-name :> c-function
|
||||
[args>args]
|
||||
c-return library c-function c-parameters \ alien-invoke
|
||||
5 [ ] nsequence
|
||||
c-parameters length \ nkeep
|
||||
[ ] 3sequence ;
|
||||
|
||||
: [fortran-out-param>] ( parameter -- quot )
|
||||
parse-fortran-type
|
||||
[ (fortran-result>) ] [ out?>> ] bi
|
||||
[ ] [ [ drop [ drop ] ] map ] if ;
|
||||
|
||||
: [fortran-return>] ( return -- quot )
|
||||
parse-fortran-type {
|
||||
{ [ dup not ] [ drop { } ] }
|
||||
{ [ dup returns-by-value? ] [ drop { [ ] } ] }
|
||||
[ (fortran-result>) ]
|
||||
} cond ;
|
||||
|
||||
: letters ( -- seq ) CHAR: a CHAR: z [a,b] ;
|
||||
|
||||
: (shuffle-map) ( return parameters -- ret par )
|
||||
[
|
||||
fortran-ret-type>c-type length swap "void" = [ 1+ ] unless
|
||||
letters swap head [ "ret" swap suffix ] map
|
||||
] [
|
||||
[ fortran-arg-type>c-type nip length 1+ ] map letters swap zip
|
||||
[ first2 letters swap head [ "" 2sequence ] with map ] map concat
|
||||
] bi* ;
|
||||
|
||||
: (fortran-in-shuffle) ( ret par -- seq )
|
||||
[ [ second ] bi@ <=> ] sort append ;
|
||||
|
||||
: (fortran-out-shuffle) ( ret par -- seq )
|
||||
append ;
|
||||
|
||||
: [fortran-result-shuffle] ( return parameters -- quot )
|
||||
(shuffle-map) [ (fortran-in-shuffle) ] [ (fortran-out-shuffle) ] 2bi <effect>
|
||||
\ shuffle-effect [ ] 2sequence ;
|
||||
|
||||
: [fortran-results>] ( return parameters -- quot )
|
||||
[ [fortran-result-shuffle] ]
|
||||
[ drop [fortran-return>] ]
|
||||
[ nip [ [fortran-out-param>] ] map concat ] 2tri
|
||||
append
|
||||
\ spread [ ] 2sequence append ;
|
||||
|
||||
PRIVATE>
|
||||
|
||||
: fortran-type>c-type ( fortran-type -- c-type )
|
||||
parse-fortran-type (fortran-type>c-type) ;
|
||||
|
||||
: fortran-arg-type>c-type ( fortran-type -- c-type added-args )
|
||||
parse-fortran-type
|
||||
[ (fortran-type>c-type) c-type>pointer ]
|
||||
[ added-c-args ] bi ;
|
||||
: fortran-ret-type>c-type ( fortran-type -- c-type added-args )
|
||||
parse-fortran-type dup returns-by-value?
|
||||
[ (fortran-ret-type>c-type) { } ] [
|
||||
"void" swap
|
||||
[ added-c-args ] [ (fortran-ret-type>c-type) c-type>pointer ] bi prefix
|
||||
] if ;
|
||||
|
||||
: fortran-arg-types>c-types ( fortran-types -- c-types )
|
||||
[ length <vector> 1 <vector> ] keep
|
||||
[ fortran-arg-type>c-type swapd [ suffix! ] [ append! ] 2bi* ] each
|
||||
append >array ;
|
||||
|
||||
: fortran-sig>c-sig ( fortran-return fortran-args -- c-return c-args )
|
||||
[ fortran-ret-type>c-type ] [ fortran-arg-types>c-types ] bi* append ;
|
||||
|
||||
: fortran-record>c-struct ( record -- struct )
|
||||
[ first2 [ fortran-type>c-type ] [ >lower ] bi* 2array ] map ;
|
||||
|
||||
: define-fortran-record ( name vocab fields -- )
|
||||
[ >lower ] [ ] [ fortran-record>c-struct ] tri* define-struct ;
|
||||
|
||||
: RECORD: scan in get parse-definition define-fortran-record ; parsing
|
||||
|
||||
: (fortran-invoke) ( return library function parameters -- quot )
|
||||
{
|
||||
[ 2nip [<fortran-result>] ]
|
||||
[ nip nip nip [fortran-args>c-args] ]
|
||||
[ [fortran-invoke] ]
|
||||
[ 2nip [fortran-results>] ]
|
||||
} 4 ncleave 4 nappend ;
|
||||
|
||||
MACRO: fortran-invoke ( return library function parameters -- )
|
||||
(fortran-invoke) ;
|
||||
|
||||
:: define-fortran-function ( return library function parameters -- )
|
||||
function create-in dup reset-generic
|
||||
return library function parameters return [ "void" ] unless* parse-arglist
|
||||
[ \ fortran-invoke 5 [ ] nsequence ] dip define-declared ;
|
||||
|
||||
: SUBROUTINE:
|
||||
f "c-library" get scan ";" parse-tokens
|
||||
[ "()" subseq? not ] filter define-fortran-function ; parsing
|
||||
|
||||
: FUNCTION:
|
||||
scan "c-library" get scan ";" parse-tokens
|
||||
[ "()" subseq? not ] filter define-fortran-function ; parsing
|
||||
|
||||
: LIBRARY:
|
||||
scan "c-library" set ; parsing
|
|
@ -0,0 +1 @@
|
|||
GNU Fortran/G77/F2C alien interface
|
|
@ -0,0 +1,2 @@
|
|||
fortran
|
||||
ffi
|
|
@ -58,10 +58,7 @@ PREDICATE: slot-writer < word "writing" word-prop >boolean ;
|
|||
: define-getter ( type spec -- )
|
||||
[ set-reader-props ] keep
|
||||
[ reader>> ]
|
||||
[
|
||||
type>>
|
||||
[ c-getter ] [ c-type-boxer-quot ] bi append
|
||||
]
|
||||
[ type>> c-type-getter-boxer ]
|
||||
[ ] tri
|
||||
(( c-ptr -- value )) define-struct-slot-word ;
|
||||
|
||||
|
|
|
@ -42,3 +42,18 @@ C-UNION: barx
|
|||
[ ] [ \ foox-x "help" get execute ] unit-test
|
||||
[ ] [ \ set-foox-x "help" get execute ] unit-test
|
||||
] when
|
||||
|
||||
C-STRUCT: nested
|
||||
{ "int" "x" } ;
|
||||
|
||||
C-STRUCT: nested-2
|
||||
{ "nested" "y" } ;
|
||||
|
||||
[ 4 ] [
|
||||
"nested-2" <c-object>
|
||||
"nested" <c-object>
|
||||
4 over set-nested-x
|
||||
over set-nested-2-y
|
||||
nested-2-y
|
||||
nested-x
|
||||
] unit-test
|
||||
|
|
|
@ -1,11 +1,19 @@
|
|||
! Copyright (C) 2004, 2008 Slava Pestov.
|
||||
! See http://factorcode.org/license.txt for BSD license.
|
||||
USING: accessors arrays generic hashtables kernel kernel.private
|
||||
USING: accessors arrays assocs generic hashtables kernel kernel.private
|
||||
math namespaces parser sequences strings words libc fry
|
||||
alien.c-types alien.structs.fields cpu.architecture math.order ;
|
||||
alien.c-types alien.structs.fields cpu.architecture math.order
|
||||
quotations ;
|
||||
IN: alien.structs
|
||||
|
||||
TUPLE: struct-type size align fields boxer-quot unboxer-quot getter setter ;
|
||||
TUPLE: struct-type
|
||||
size
|
||||
align
|
||||
fields
|
||||
{ boxer-quot callable }
|
||||
{ unboxer-quot callable }
|
||||
{ getter callable }
|
||||
{ setter callable } ;
|
||||
|
||||
M: struct-type heap-size size>> ;
|
||||
|
||||
|
@ -68,3 +76,8 @@ M: struct-type stack-size
|
|||
[ expand-constants ] map
|
||||
[ [ heap-size ] [ max ] map-reduce ] keep
|
||||
compute-struct-align f (define-struct) ;
|
||||
|
||||
: offset-of ( field struct -- offset )
|
||||
c-types get at fields>>
|
||||
[ name>> = ] with find nip offset>> ;
|
||||
|
||||
|
|
|
@ -37,11 +37,12 @@ IN: io.launcher.windows.nt.tests
|
|||
"out.txt" temp-file ascii file-lines first
|
||||
] unit-test
|
||||
|
||||
[ ] [
|
||||
[ "( scratchpad ) " ] [
|
||||
<process>
|
||||
console-vm "-run=listener" 2array >>command
|
||||
+closed+ >>stdin
|
||||
try-process
|
||||
+stdout+ >>stderr
|
||||
ascii [ input-stream get contents ] with-process-reader
|
||||
] unit-test
|
||||
|
||||
: launcher-test-path ( -- str )
|
||||
|
@ -162,3 +163,5 @@ IN: io.launcher.windows.nt.tests
|
|||
|
||||
"append-test" temp-file ascii file-contents
|
||||
] unit-test
|
||||
|
||||
|
||||
|
|
|
@ -1,574 +0,0 @@
|
|||
USING: alien alien.c-types alien.syntax kernel system
|
||||
combinators ;
|
||||
IN: math.blas.cblas
|
||||
|
||||
<<
|
||||
: load-atlas ( -- )
|
||||
"atlas" "libatlas.so" "cdecl" add-library ;
|
||||
: load-fortran ( -- )
|
||||
"I77" "libI77.so" "cdecl" add-library
|
||||
"F77" "libF77.so" "cdecl" add-library ;
|
||||
: load-blas ( -- )
|
||||
"blas" "libblas.so" "cdecl" add-library ;
|
||||
|
||||
"cblas" {
|
||||
{ [ os macosx? ] [ "libblas.dylib" "cdecl" add-library ] }
|
||||
{ [ os windows? ] [ "blas.dll" "cdecl" add-library ] }
|
||||
{ [ os openbsd? ] [ "libcblas.so" "cdecl" add-library load-blas ] }
|
||||
{ [ os netbsd? ] [
|
||||
load-fortran load-blas
|
||||
"/usr/local/lib/libcblas.so" "cdecl" add-library
|
||||
] }
|
||||
{ [ os freebsd? ] [ "libcblas.so" "cdecl" add-library load-atlas ] }
|
||||
[ "libblas.so" "cdecl" add-library ]
|
||||
} cond
|
||||
>>
|
||||
|
||||
LIBRARY: cblas
|
||||
|
||||
TYPEDEF: int CBLAS_ORDER
|
||||
CONSTANT: CblasRowMajor 101
|
||||
CONSTANT: CblasColMajor 102
|
||||
|
||||
TYPEDEF: int CBLAS_TRANSPOSE
|
||||
CONSTANT: CblasNoTrans 111
|
||||
CONSTANT: CblasTrans 112
|
||||
CONSTANT: CblasConjTrans 113
|
||||
|
||||
TYPEDEF: int CBLAS_UPLO
|
||||
CONSTANT: CblasUpper 121
|
||||
CONSTANT: CblasLower 122
|
||||
|
||||
TYPEDEF: int CBLAS_DIAG
|
||||
CONSTANT: CblasNonUnit 131
|
||||
CONSTANT: CblasUnit 132
|
||||
|
||||
TYPEDEF: int CBLAS_SIDE
|
||||
CONSTANT: CblasLeft 141
|
||||
CONSTANT: CblasRight 142
|
||||
|
||||
TYPEDEF: int CBLAS_INDEX
|
||||
|
||||
C-STRUCT: float-complex
|
||||
{ "float" "real" }
|
||||
{ "float" "imag" } ;
|
||||
C-STRUCT: double-complex
|
||||
{ "double" "real" }
|
||||
{ "double" "imag" } ;
|
||||
|
||||
! Level 1 BLAS (scalar-vector and vector-vector)
|
||||
|
||||
FUNCTION: float cblas_sdsdot
|
||||
( int N, float alpha, float* X, int incX, float* Y, int incY ) ;
|
||||
FUNCTION: double cblas_dsdot
|
||||
( int N, float* X, int incX, float* Y, int incY ) ;
|
||||
FUNCTION: float cblas_sdot
|
||||
( int N, float* X, int incX, float* Y, int incY ) ;
|
||||
FUNCTION: double cblas_ddot
|
||||
( int N, double* X, int incX, double* Y, int incY ) ;
|
||||
|
||||
FUNCTION: void cblas_cdotu_sub
|
||||
( int N, void* X, int incX, void* Y, int incY, void* dotu ) ;
|
||||
FUNCTION: void cblas_cdotc_sub
|
||||
( int N, void* X, int incX, void* Y, int incY, void* dotc ) ;
|
||||
|
||||
FUNCTION: void cblas_zdotu_sub
|
||||
( int N, void* X, int incX, void* Y, int incY, void* dotu ) ;
|
||||
FUNCTION: void cblas_zdotc_sub
|
||||
( int N, void* X, int incX, void* Y, int incY, void* dotc ) ;
|
||||
|
||||
FUNCTION: float cblas_snrm2
|
||||
( int N, float* X, int incX ) ;
|
||||
FUNCTION: float cblas_sasum
|
||||
( int N, float* X, int incX ) ;
|
||||
|
||||
FUNCTION: double cblas_dnrm2
|
||||
( int N, double* X, int incX ) ;
|
||||
FUNCTION: double cblas_dasum
|
||||
( int N, double* X, int incX ) ;
|
||||
|
||||
FUNCTION: float cblas_scnrm2
|
||||
( int N, void* X, int incX ) ;
|
||||
FUNCTION: float cblas_scasum
|
||||
( int N, void* X, int incX ) ;
|
||||
|
||||
FUNCTION: double cblas_dznrm2
|
||||
( int N, void* X, int incX ) ;
|
||||
FUNCTION: double cblas_dzasum
|
||||
( int N, void* X, int incX ) ;
|
||||
|
||||
FUNCTION: CBLAS_INDEX cblas_isamax
|
||||
( int N, float* X, int incX ) ;
|
||||
FUNCTION: CBLAS_INDEX cblas_idamax
|
||||
( int N, double* X, int incX ) ;
|
||||
FUNCTION: CBLAS_INDEX cblas_icamax
|
||||
( int N, void* X, int incX ) ;
|
||||
FUNCTION: CBLAS_INDEX cblas_izamax
|
||||
( int N, void* X, int incX ) ;
|
||||
|
||||
FUNCTION: void cblas_sswap
|
||||
( int N, float* X, int incX, float* Y, int incY ) ;
|
||||
FUNCTION: void cblas_scopy
|
||||
( int N, float* X, int incX, float* Y, int incY ) ;
|
||||
FUNCTION: void cblas_saxpy
|
||||
( int N, float alpha, float* X, int incX, float* Y, int incY ) ;
|
||||
|
||||
FUNCTION: void cblas_dswap
|
||||
( int N, double* X, int incX, double* Y, int incY ) ;
|
||||
FUNCTION: void cblas_dcopy
|
||||
( int N, double* X, int incX, double* Y, int incY ) ;
|
||||
FUNCTION: void cblas_daxpy
|
||||
( int N, double alpha, double* X, int incX, double* Y, int incY ) ;
|
||||
|
||||
FUNCTION: void cblas_cswap
|
||||
( int N, void* X, int incX, void* Y, int incY ) ;
|
||||
FUNCTION: void cblas_ccopy
|
||||
( int N, void* X, int incX, void* Y, int incY ) ;
|
||||
FUNCTION: void cblas_caxpy
|
||||
( int N, void* alpha, void* X, int incX, void* Y, int incY ) ;
|
||||
|
||||
FUNCTION: void cblas_zswap
|
||||
( int N, void* X, int incX, void* Y, int incY ) ;
|
||||
FUNCTION: void cblas_zcopy
|
||||
( int N, void* X, int incX, void* Y, int incY ) ;
|
||||
FUNCTION: void cblas_zaxpy
|
||||
( int N, void* alpha, void* X, int incX, void* Y, int incY ) ;
|
||||
|
||||
FUNCTION: void cblas_sscal
|
||||
( int N, float alpha, float* X, int incX ) ;
|
||||
FUNCTION: void cblas_dscal
|
||||
( int N, double alpha, double* X, int incX ) ;
|
||||
FUNCTION: void cblas_cscal
|
||||
( int N, void* alpha, void* X, int incX ) ;
|
||||
FUNCTION: void cblas_zscal
|
||||
( int N, void* alpha, void* X, int incX ) ;
|
||||
FUNCTION: void cblas_csscal
|
||||
( int N, float alpha, void* X, int incX ) ;
|
||||
FUNCTION: void cblas_zdscal
|
||||
( int N, double alpha, void* X, int incX ) ;
|
||||
|
||||
FUNCTION: void cblas_srotg
|
||||
( float* a, float* b, float* c, float* s ) ;
|
||||
FUNCTION: void cblas_srotmg
|
||||
( float* d1, float* d2, float* b1, float b2, float* P ) ;
|
||||
FUNCTION: void cblas_srot
|
||||
( int N, float* X, int incX, float* Y, int incY, float c, float s ) ;
|
||||
FUNCTION: void cblas_srotm
|
||||
( int N, float* X, int incX, float* Y, int incY, float* P ) ;
|
||||
|
||||
FUNCTION: void cblas_drotg
|
||||
( double* a, double* b, double* c, double* s ) ;
|
||||
FUNCTION: void cblas_drotmg
|
||||
( double* d1, double* d2, double* b1, double b2, double* P ) ;
|
||||
FUNCTION: void cblas_drot
|
||||
( int N, double* X, int incX, double* Y, int incY, double c, double s ) ;
|
||||
FUNCTION: void cblas_drotm
|
||||
( int N, double* X, int incX, double* Y, int incY, double* P ) ;
|
||||
|
||||
! Level 2 BLAS (matrix-vector)
|
||||
|
||||
FUNCTION: void cblas_sgemv ( CBLAS_ORDER Order,
|
||||
CBLAS_TRANSPOSE TransA, int M, int N,
|
||||
float alpha, float* A, int lda,
|
||||
float* X, int incX, float beta,
|
||||
float* Y, int incY ) ;
|
||||
FUNCTION: void cblas_sgbmv ( CBLAS_ORDER Order,
|
||||
CBLAS_TRANSPOSE TransA, int M, int N,
|
||||
int KL, int KU, float alpha,
|
||||
float* A, int lda, float* X,
|
||||
int incX, float beta, float* Y, int incY ) ;
|
||||
FUNCTION: void cblas_strmv ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
CBLAS_TRANSPOSE TransA, CBLAS_DIAG Diag,
|
||||
int N, float* A, int lda,
|
||||
float* X, int incX ) ;
|
||||
FUNCTION: void cblas_stbmv ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
CBLAS_TRANSPOSE TransA, CBLAS_DIAG Diag,
|
||||
int N, int K, float* A, int lda,
|
||||
float* X, int incX ) ;
|
||||
FUNCTION: void cblas_stpmv ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
CBLAS_TRANSPOSE TransA, CBLAS_DIAG Diag,
|
||||
int N, float* Ap, float* X, int incX ) ;
|
||||
FUNCTION: void cblas_strsv ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
CBLAS_TRANSPOSE TransA, CBLAS_DIAG Diag,
|
||||
int N, float* A, int lda, float* X,
|
||||
int incX ) ;
|
||||
FUNCTION: void cblas_stbsv ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
CBLAS_TRANSPOSE TransA, CBLAS_DIAG Diag,
|
||||
int N, int K, float* A, int lda,
|
||||
float* X, int incX ) ;
|
||||
FUNCTION: void cblas_stpsv ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
CBLAS_TRANSPOSE TransA, CBLAS_DIAG Diag,
|
||||
int N, float* Ap, float* X, int incX ) ;
|
||||
|
||||
FUNCTION: void cblas_dgemv ( CBLAS_ORDER Order,
|
||||
CBLAS_TRANSPOSE TransA, int M, int N,
|
||||
double alpha, double* A, int lda,
|
||||
double* X, int incX, double beta,
|
||||
double* Y, int incY ) ;
|
||||
FUNCTION: void cblas_dgbmv ( CBLAS_ORDER Order,
|
||||
CBLAS_TRANSPOSE TransA, int M, int N,
|
||||
int KL, int KU, double alpha,
|
||||
double* A, int lda, double* X,
|
||||
int incX, double beta, double* Y, int incY ) ;
|
||||
FUNCTION: void cblas_dtrmv ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
CBLAS_TRANSPOSE TransA, CBLAS_DIAG Diag,
|
||||
int N, double* A, int lda,
|
||||
double* X, int incX ) ;
|
||||
FUNCTION: void cblas_dtbmv ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
CBLAS_TRANSPOSE TransA, CBLAS_DIAG Diag,
|
||||
int N, int K, double* A, int lda,
|
||||
double* X, int incX ) ;
|
||||
FUNCTION: void cblas_dtpmv ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
CBLAS_TRANSPOSE TransA, CBLAS_DIAG Diag,
|
||||
int N, double* Ap, double* X, int incX ) ;
|
||||
FUNCTION: void cblas_dtrsv ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
CBLAS_TRANSPOSE TransA, CBLAS_DIAG Diag,
|
||||
int N, double* A, int lda, double* X,
|
||||
int incX ) ;
|
||||
FUNCTION: void cblas_dtbsv ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
CBLAS_TRANSPOSE TransA, CBLAS_DIAG Diag,
|
||||
int N, int K, double* A, int lda,
|
||||
double* X, int incX ) ;
|
||||
FUNCTION: void cblas_dtpsv ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
CBLAS_TRANSPOSE TransA, CBLAS_DIAG Diag,
|
||||
int N, double* Ap, double* X, int incX ) ;
|
||||
|
||||
FUNCTION: void cblas_cgemv ( CBLAS_ORDER Order,
|
||||
CBLAS_TRANSPOSE TransA, int M, int N,
|
||||
void* alpha, void* A, int lda,
|
||||
void* X, int incX, void* beta,
|
||||
void* Y, int incY ) ;
|
||||
FUNCTION: void cblas_cgbmv ( CBLAS_ORDER Order,
|
||||
CBLAS_TRANSPOSE TransA, int M, int N,
|
||||
int KL, int KU, void* alpha,
|
||||
void* A, int lda, void* X,
|
||||
int incX, void* beta, void* Y, int incY ) ;
|
||||
FUNCTION: void cblas_ctrmv ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
CBLAS_TRANSPOSE TransA, CBLAS_DIAG Diag,
|
||||
int N, void* A, int lda,
|
||||
void* X, int incX ) ;
|
||||
FUNCTION: void cblas_ctbmv ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
CBLAS_TRANSPOSE TransA, CBLAS_DIAG Diag,
|
||||
int N, int K, void* A, int lda,
|
||||
void* X, int incX ) ;
|
||||
FUNCTION: void cblas_ctpmv ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
CBLAS_TRANSPOSE TransA, CBLAS_DIAG Diag,
|
||||
int N, void* Ap, void* X, int incX ) ;
|
||||
FUNCTION: void cblas_ctrsv ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
CBLAS_TRANSPOSE TransA, CBLAS_DIAG Diag,
|
||||
int N, void* A, int lda, void* X,
|
||||
int incX ) ;
|
||||
FUNCTION: void cblas_ctbsv ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
CBLAS_TRANSPOSE TransA, CBLAS_DIAG Diag,
|
||||
int N, int K, void* A, int lda,
|
||||
void* X, int incX ) ;
|
||||
FUNCTION: void cblas_ctpsv ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
CBLAS_TRANSPOSE TransA, CBLAS_DIAG Diag,
|
||||
int N, void* Ap, void* X, int incX ) ;
|
||||
|
||||
FUNCTION: void cblas_zgemv ( CBLAS_ORDER Order,
|
||||
CBLAS_TRANSPOSE TransA, int M, int N,
|
||||
void* alpha, void* A, int lda,
|
||||
void* X, int incX, void* beta,
|
||||
void* Y, int incY ) ;
|
||||
FUNCTION: void cblas_zgbmv ( CBLAS_ORDER Order,
|
||||
CBLAS_TRANSPOSE TransA, int M, int N,
|
||||
int KL, int KU, void* alpha,
|
||||
void* A, int lda, void* X,
|
||||
int incX, void* beta, void* Y, int incY ) ;
|
||||
FUNCTION: void cblas_ztrmv ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
CBLAS_TRANSPOSE TransA, CBLAS_DIAG Diag,
|
||||
int N, void* A, int lda,
|
||||
void* X, int incX ) ;
|
||||
FUNCTION: void cblas_ztbmv ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
CBLAS_TRANSPOSE TransA, CBLAS_DIAG Diag,
|
||||
int N, int K, void* A, int lda,
|
||||
void* X, int incX ) ;
|
||||
FUNCTION: void cblas_ztpmv ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
CBLAS_TRANSPOSE TransA, CBLAS_DIAG Diag,
|
||||
int N, void* Ap, void* X, int incX ) ;
|
||||
FUNCTION: void cblas_ztrsv ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
CBLAS_TRANSPOSE TransA, CBLAS_DIAG Diag,
|
||||
int N, void* A, int lda, void* X,
|
||||
int incX ) ;
|
||||
FUNCTION: void cblas_ztbsv ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
CBLAS_TRANSPOSE TransA, CBLAS_DIAG Diag,
|
||||
int N, int K, void* A, int lda,
|
||||
void* X, int incX ) ;
|
||||
FUNCTION: void cblas_ztpsv ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
CBLAS_TRANSPOSE TransA, CBLAS_DIAG Diag,
|
||||
int N, void* Ap, void* X, int incX ) ;
|
||||
|
||||
|
||||
FUNCTION: void cblas_ssymv ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
int N, float alpha, float* A,
|
||||
int lda, float* X, int incX,
|
||||
float beta, float* Y, int incY ) ;
|
||||
FUNCTION: void cblas_ssbmv ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
int N, int K, float alpha, float* A,
|
||||
int lda, float* X, int incX,
|
||||
float beta, float* Y, int incY ) ;
|
||||
FUNCTION: void cblas_sspmv ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
int N, float alpha, float* Ap,
|
||||
float* X, int incX,
|
||||
float beta, float* Y, int incY ) ;
|
||||
FUNCTION: void cblas_sger ( CBLAS_ORDER Order, int M, int N,
|
||||
float alpha, float* X, int incX,
|
||||
float* Y, int incY, float* A, int lda ) ;
|
||||
FUNCTION: void cblas_ssyr ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
int N, float alpha, float* X,
|
||||
int incX, float* A, int lda ) ;
|
||||
FUNCTION: void cblas_sspr ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
int N, float alpha, float* X,
|
||||
int incX, float* Ap ) ;
|
||||
FUNCTION: void cblas_ssyr2 ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
int N, float alpha, float* X,
|
||||
int incX, float* Y, int incY, float* A,
|
||||
int lda ) ;
|
||||
FUNCTION: void cblas_sspr2 ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
int N, float alpha, float* X,
|
||||
int incX, float* Y, int incY, float* A ) ;
|
||||
|
||||
FUNCTION: void cblas_dsymv ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
int N, double alpha, double* A,
|
||||
int lda, double* X, int incX,
|
||||
double beta, double* Y, int incY ) ;
|
||||
FUNCTION: void cblas_dsbmv ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
int N, int K, double alpha, double* A,
|
||||
int lda, double* X, int incX,
|
||||
double beta, double* Y, int incY ) ;
|
||||
FUNCTION: void cblas_dspmv ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
int N, double alpha, double* Ap,
|
||||
double* X, int incX,
|
||||
double beta, double* Y, int incY ) ;
|
||||
FUNCTION: void cblas_dger ( CBLAS_ORDER Order, int M, int N,
|
||||
double alpha, double* X, int incX,
|
||||
double* Y, int incY, double* A, int lda ) ;
|
||||
FUNCTION: void cblas_dsyr ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
int N, double alpha, double* X,
|
||||
int incX, double* A, int lda ) ;
|
||||
FUNCTION: void cblas_dspr ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
int N, double alpha, double* X,
|
||||
int incX, double* Ap ) ;
|
||||
FUNCTION: void cblas_dsyr2 ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
int N, double alpha, double* X,
|
||||
int incX, double* Y, int incY, double* A,
|
||||
int lda ) ;
|
||||
FUNCTION: void cblas_dspr2 ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
int N, double alpha, double* X,
|
||||
int incX, double* Y, int incY, double* A ) ;
|
||||
|
||||
|
||||
FUNCTION: void cblas_chemv ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
int N, void* alpha, void* A,
|
||||
int lda, void* X, int incX,
|
||||
void* beta, void* Y, int incY ) ;
|
||||
FUNCTION: void cblas_chbmv ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
int N, int K, void* alpha, void* A,
|
||||
int lda, void* X, int incX,
|
||||
void* beta, void* Y, int incY ) ;
|
||||
FUNCTION: void cblas_chpmv ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
int N, void* alpha, void* Ap,
|
||||
void* X, int incX,
|
||||
void* beta, void* Y, int incY ) ;
|
||||
FUNCTION: void cblas_cgeru ( CBLAS_ORDER Order, int M, int N,
|
||||
void* alpha, void* X, int incX,
|
||||
void* Y, int incY, void* A, int lda ) ;
|
||||
FUNCTION: void cblas_cgerc ( CBLAS_ORDER Order, int M, int N,
|
||||
void* alpha, void* X, int incX,
|
||||
void* Y, int incY, void* A, int lda ) ;
|
||||
FUNCTION: void cblas_cher ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
int N, float alpha, void* X, int incX,
|
||||
void* A, int lda ) ;
|
||||
FUNCTION: void cblas_chpr ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
int N, float alpha, void* X,
|
||||
int incX, void* A ) ;
|
||||
FUNCTION: void cblas_cher2 ( CBLAS_ORDER Order, CBLAS_UPLO Uplo, int N,
|
||||
void* alpha, void* X, int incX,
|
||||
void* Y, int incY, void* A, int lda ) ;
|
||||
FUNCTION: void cblas_chpr2 ( CBLAS_ORDER Order, CBLAS_UPLO Uplo, int N,
|
||||
void* alpha, void* X, int incX,
|
||||
void* Y, int incY, void* Ap ) ;
|
||||
|
||||
FUNCTION: void cblas_zhemv ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
int N, void* alpha, void* A,
|
||||
int lda, void* X, int incX,
|
||||
void* beta, void* Y, int incY ) ;
|
||||
FUNCTION: void cblas_zhbmv ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
int N, int K, void* alpha, void* A,
|
||||
int lda, void* X, int incX,
|
||||
void* beta, void* Y, int incY ) ;
|
||||
FUNCTION: void cblas_zhpmv ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
int N, void* alpha, void* Ap,
|
||||
void* X, int incX,
|
||||
void* beta, void* Y, int incY ) ;
|
||||
FUNCTION: void cblas_zgeru ( CBLAS_ORDER Order, int M, int N,
|
||||
void* alpha, void* X, int incX,
|
||||
void* Y, int incY, void* A, int lda ) ;
|
||||
FUNCTION: void cblas_zgerc ( CBLAS_ORDER Order, int M, int N,
|
||||
void* alpha, void* X, int incX,
|
||||
void* Y, int incY, void* A, int lda ) ;
|
||||
FUNCTION: void cblas_zher ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
int N, double alpha, void* X, int incX,
|
||||
void* A, int lda ) ;
|
||||
FUNCTION: void cblas_zhpr ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
int N, double alpha, void* X,
|
||||
int incX, void* A ) ;
|
||||
FUNCTION: void cblas_zher2 ( CBLAS_ORDER Order, CBLAS_UPLO Uplo, int N,
|
||||
void* alpha, void* X, int incX,
|
||||
void* Y, int incY, void* A, int lda ) ;
|
||||
FUNCTION: void cblas_zhpr2 ( CBLAS_ORDER Order, CBLAS_UPLO Uplo, int N,
|
||||
void* alpha, void* X, int incX,
|
||||
void* Y, int incY, void* Ap ) ;
|
||||
|
||||
! Level 3 BLAS (matrix-matrix)
|
||||
|
||||
FUNCTION: void cblas_sgemm ( CBLAS_ORDER Order, CBLAS_TRANSPOSE TransA,
|
||||
CBLAS_TRANSPOSE TransB, int M, int N,
|
||||
int K, float alpha, float* A,
|
||||
int lda, float* B, int ldb,
|
||||
float beta, float* C, int ldc ) ;
|
||||
FUNCTION: void cblas_ssymm ( CBLAS_ORDER Order, CBLAS_SIDE Side,
|
||||
CBLAS_UPLO Uplo, int M, int N,
|
||||
float alpha, float* A, int lda,
|
||||
float* B, int ldb, float beta,
|
||||
float* C, int ldc ) ;
|
||||
FUNCTION: void cblas_ssyrk ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
CBLAS_TRANSPOSE Trans, int N, int K,
|
||||
float alpha, float* A, int lda,
|
||||
float beta, float* C, int ldc ) ;
|
||||
FUNCTION: void cblas_ssyr2k ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
CBLAS_TRANSPOSE Trans, int N, int K,
|
||||
float alpha, float* A, int lda,
|
||||
float* B, int ldb, float beta,
|
||||
float* C, int ldc ) ;
|
||||
FUNCTION: void cblas_strmm ( CBLAS_ORDER Order, CBLAS_SIDE Side,
|
||||
CBLAS_UPLO Uplo, CBLAS_TRANSPOSE TransA,
|
||||
CBLAS_DIAG Diag, int M, int N,
|
||||
float alpha, float* A, int lda,
|
||||
float* B, int ldb ) ;
|
||||
FUNCTION: void cblas_strsm ( CBLAS_ORDER Order, CBLAS_SIDE Side,
|
||||
CBLAS_UPLO Uplo, CBLAS_TRANSPOSE TransA,
|
||||
CBLAS_DIAG Diag, int M, int N,
|
||||
float alpha, float* A, int lda,
|
||||
float* B, int ldb ) ;
|
||||
|
||||
FUNCTION: void cblas_dgemm ( CBLAS_ORDER Order, CBLAS_TRANSPOSE TransA,
|
||||
CBLAS_TRANSPOSE TransB, int M, int N,
|
||||
int K, double alpha, double* A,
|
||||
int lda, double* B, int ldb,
|
||||
double beta, double* C, int ldc ) ;
|
||||
FUNCTION: void cblas_dsymm ( CBLAS_ORDER Order, CBLAS_SIDE Side,
|
||||
CBLAS_UPLO Uplo, int M, int N,
|
||||
double alpha, double* A, int lda,
|
||||
double* B, int ldb, double beta,
|
||||
double* C, int ldc ) ;
|
||||
FUNCTION: void cblas_dsyrk ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
CBLAS_TRANSPOSE Trans, int N, int K,
|
||||
double alpha, double* A, int lda,
|
||||
double beta, double* C, int ldc ) ;
|
||||
FUNCTION: void cblas_dsyr2k ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
CBLAS_TRANSPOSE Trans, int N, int K,
|
||||
double alpha, double* A, int lda,
|
||||
double* B, int ldb, double beta,
|
||||
double* C, int ldc ) ;
|
||||
FUNCTION: void cblas_dtrmm ( CBLAS_ORDER Order, CBLAS_SIDE Side,
|
||||
CBLAS_UPLO Uplo, CBLAS_TRANSPOSE TransA,
|
||||
CBLAS_DIAG Diag, int M, int N,
|
||||
double alpha, double* A, int lda,
|
||||
double* B, int ldb ) ;
|
||||
FUNCTION: void cblas_dtrsm ( CBLAS_ORDER Order, CBLAS_SIDE Side,
|
||||
CBLAS_UPLO Uplo, CBLAS_TRANSPOSE TransA,
|
||||
CBLAS_DIAG Diag, int M, int N,
|
||||
double alpha, double* A, int lda,
|
||||
double* B, int ldb ) ;
|
||||
|
||||
FUNCTION: void cblas_cgemm ( CBLAS_ORDER Order, CBLAS_TRANSPOSE TransA,
|
||||
CBLAS_TRANSPOSE TransB, int M, int N,
|
||||
int K, void* alpha, void* A,
|
||||
int lda, void* B, int ldb,
|
||||
void* beta, void* C, int ldc ) ;
|
||||
FUNCTION: void cblas_csymm ( CBLAS_ORDER Order, CBLAS_SIDE Side,
|
||||
CBLAS_UPLO Uplo, int M, int N,
|
||||
void* alpha, void* A, int lda,
|
||||
void* B, int ldb, void* beta,
|
||||
void* C, int ldc ) ;
|
||||
FUNCTION: void cblas_csyrk ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
CBLAS_TRANSPOSE Trans, int N, int K,
|
||||
void* alpha, void* A, int lda,
|
||||
void* beta, void* C, int ldc ) ;
|
||||
FUNCTION: void cblas_csyr2k ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
CBLAS_TRANSPOSE Trans, int N, int K,
|
||||
void* alpha, void* A, int lda,
|
||||
void* B, int ldb, void* beta,
|
||||
void* C, int ldc ) ;
|
||||
FUNCTION: void cblas_ctrmm ( CBLAS_ORDER Order, CBLAS_SIDE Side,
|
||||
CBLAS_UPLO Uplo, CBLAS_TRANSPOSE TransA,
|
||||
CBLAS_DIAG Diag, int M, int N,
|
||||
void* alpha, void* A, int lda,
|
||||
void* B, int ldb ) ;
|
||||
FUNCTION: void cblas_ctrsm ( CBLAS_ORDER Order, CBLAS_SIDE Side,
|
||||
CBLAS_UPLO Uplo, CBLAS_TRANSPOSE TransA,
|
||||
CBLAS_DIAG Diag, int M, int N,
|
||||
void* alpha, void* A, int lda,
|
||||
void* B, int ldb ) ;
|
||||
|
||||
FUNCTION: void cblas_zgemm ( CBLAS_ORDER Order, CBLAS_TRANSPOSE TransA,
|
||||
CBLAS_TRANSPOSE TransB, int M, int N,
|
||||
int K, void* alpha, void* A,
|
||||
int lda, void* B, int ldb,
|
||||
void* beta, void* C, int ldc ) ;
|
||||
FUNCTION: void cblas_zsymm ( CBLAS_ORDER Order, CBLAS_SIDE Side,
|
||||
CBLAS_UPLO Uplo, int M, int N,
|
||||
void* alpha, void* A, int lda,
|
||||
void* B, int ldb, void* beta,
|
||||
void* C, int ldc ) ;
|
||||
FUNCTION: void cblas_zsyrk ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
CBLAS_TRANSPOSE Trans, int N, int K,
|
||||
void* alpha, void* A, int lda,
|
||||
void* beta, void* C, int ldc ) ;
|
||||
FUNCTION: void cblas_zsyr2k ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
CBLAS_TRANSPOSE Trans, int N, int K,
|
||||
void* alpha, void* A, int lda,
|
||||
void* B, int ldb, void* beta,
|
||||
void* C, int ldc ) ;
|
||||
FUNCTION: void cblas_ztrmm ( CBLAS_ORDER Order, CBLAS_SIDE Side,
|
||||
CBLAS_UPLO Uplo, CBLAS_TRANSPOSE TransA,
|
||||
CBLAS_DIAG Diag, int M, int N,
|
||||
void* alpha, void* A, int lda,
|
||||
void* B, int ldb ) ;
|
||||
FUNCTION: void cblas_ztrsm ( CBLAS_ORDER Order, CBLAS_SIDE Side,
|
||||
CBLAS_UPLO Uplo, CBLAS_TRANSPOSE TransA,
|
||||
CBLAS_DIAG Diag, int M, int N,
|
||||
void* alpha, void* A, int lda,
|
||||
void* B, int ldb ) ;
|
||||
|
||||
FUNCTION: void cblas_chemm ( CBLAS_ORDER Order, CBLAS_SIDE Side,
|
||||
CBLAS_UPLO Uplo, int M, int N,
|
||||
void* alpha, void* A, int lda,
|
||||
void* B, int ldb, void* beta,
|
||||
void* C, int ldc ) ;
|
||||
FUNCTION: void cblas_cherk ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
CBLAS_TRANSPOSE Trans, int N, int K,
|
||||
float alpha, void* A, int lda,
|
||||
float beta, void* C, int ldc ) ;
|
||||
FUNCTION: void cblas_cher2k ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
CBLAS_TRANSPOSE Trans, int N, int K,
|
||||
void* alpha, void* A, int lda,
|
||||
void* B, int ldb, float beta,
|
||||
void* C, int ldc ) ;
|
||||
FUNCTION: void cblas_zhemm ( CBLAS_ORDER Order, CBLAS_SIDE Side,
|
||||
CBLAS_UPLO Uplo, int M, int N,
|
||||
void* alpha, void* A, int lda,
|
||||
void* B, int ldb, void* beta,
|
||||
void* C, int ldc ) ;
|
||||
FUNCTION: void cblas_zherk ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
CBLAS_TRANSPOSE Trans, int N, int K,
|
||||
double alpha, void* A, int lda,
|
||||
double beta, void* C, int ldc ) ;
|
||||
FUNCTION: void cblas_zher2k ( CBLAS_ORDER Order, CBLAS_UPLO Uplo,
|
||||
CBLAS_TRANSPOSE Trans, int N, int K,
|
||||
void* alpha, void* A, int lda,
|
||||
void* B, int ldb, double beta,
|
||||
void* C, int ldc ) ;
|
||||
|
|
@ -1 +0,0 @@
|
|||
Low-level bindings to the C Basic Linear Algebra Subroutines (BLAS) library
|
|
@ -0,0 +1 @@
|
|||
Joe Groff
|
|
@ -0,0 +1,520 @@
|
|||
USING: alien alien.fortran kernel system combinators ;
|
||||
IN: math.blas.ffi
|
||||
|
||||
<<
|
||||
"blas" {
|
||||
{ [ os macosx? ] [ "libblas.dylib" "cdecl" add-library ] }
|
||||
{ [ os windows? ] [ "blas.dll" "cdecl" add-library ] }
|
||||
[ "libblas.so" "cdecl" add-library ]
|
||||
} cond
|
||||
>>
|
||||
|
||||
LIBRARY: blas
|
||||
|
||||
! Level 1 BLAS (scalar-vector and vector-vector)
|
||||
|
||||
FUNCTION: REAL SDSDOT
|
||||
( INTEGER N, REAL ALPHA, REAL(*) X, INTEGER INCX, REAL(*) Y, INTEGER INCY ) ;
|
||||
FUNCTION: DOUBLE-PRECISION DSDOT
|
||||
( INTEGER N, DOUBLE-PRECISION(*) X, INTEGER INCX, REAL(*) Y, INTEGER INCY ) ;
|
||||
FUNCTION: REAL SDOT
|
||||
( INTEGER N, REAL(*) X, INTEGER INCX, REAL(*) Y, INTEGER INCY ) ;
|
||||
FUNCTION: DOUBLE-PRECISION DDOT
|
||||
( INTEGER N, DOUBLE-PRECISION(*) X, INTEGER INCX, DOUBLE-PRECISION(*) Y, INTEGER INCY ) ;
|
||||
|
||||
FUNCTION: COMPLEX CDOTU
|
||||
( INTEGER N, COMPLEX(*) X, INTEGER INCX, COMPLEX(*) Y, INTEGER INCY ) ;
|
||||
FUNCTION: COMPLEX CDOTC
|
||||
( INTEGER N, COMPLEX(*) X, INTEGER INCX, COMPLEX(*) Y, INTEGER INCY ) ;
|
||||
|
||||
FUNCTION: DOUBLE-COMPLEX ZDOTU
|
||||
( INTEGER N, DOUBLE-COMPLEX(*) X, INTEGER INCX, DOUBLE-COMPLEX(*) Y, INTEGER INCY ) ;
|
||||
FUNCTION: DOUBLE-COMPLEX ZDOTC
|
||||
( INTEGER N, DOUBLE-COMPLEX(*) X, INTEGER INCX, DOUBLE-COMPLEX(*) Y, INTEGER INCY ) ;
|
||||
|
||||
FUNCTION: REAL SNRM2
|
||||
( INTEGER N, REAL(*) X, INTEGER INCX ) ;
|
||||
FUNCTION: REAL SASUM
|
||||
( INTEGER N, REAL(*) X, INTEGER INCX ) ;
|
||||
|
||||
FUNCTION: DOUBLE-PRECISION DNRM2
|
||||
( INTEGER N, DOUBLE-PRECISION(*) X, INTEGER INCX ) ;
|
||||
FUNCTION: DOUBLE-PRECISION DASUM
|
||||
( INTEGER N, DOUBLE-PRECISION(*) X, INTEGER INCX ) ;
|
||||
|
||||
FUNCTION: REAL SCNRM2
|
||||
( INTEGER N, COMPLEX(*) X, INTEGER INCX ) ;
|
||||
FUNCTION: REAL SCASUM
|
||||
( INTEGER N, COMPLEX(*) X, INTEGER INCX ) ;
|
||||
|
||||
FUNCTION: DOUBLE-PRECISION DZNRM2
|
||||
( INTEGER N, DOUBLE-COMPLEX(*) X, INTEGER INCX ) ;
|
||||
FUNCTION: DOUBLE-PRECISION DZASUM
|
||||
( INTEGER N, DOUBLE-COMPLEX(*) X, INTEGER INCX ) ;
|
||||
|
||||
FUNCTION: INTEGER ISAMAX
|
||||
( INTEGER N, REAL(*) X, INTEGER INCX ) ;
|
||||
FUNCTION: INTEGER IDAMAX
|
||||
( INTEGER N, DOUBLE-PRECISION(*) X, INTEGER INCX ) ;
|
||||
FUNCTION: INTEGER ICAMAX
|
||||
( INTEGER N, COMPLEX(*) X, INTEGER INCX ) ;
|
||||
FUNCTION: INTEGER IZAMAX
|
||||
( INTEGER N, DOUBLE-COMPLEX(*) X, INTEGER INCX ) ;
|
||||
|
||||
SUBROUTINE: SSWAP
|
||||
( INTEGER N, REAL(*) X, INTEGER INCX, REAL(*) Y, INTEGER INCY ) ;
|
||||
SUBROUTINE: SCOPY
|
||||
( INTEGER N, REAL(*) X, INTEGER INCX, REAL(*) Y, INTEGER INCY ) ;
|
||||
SUBROUTINE: SAXPY
|
||||
( INTEGER N, REAL ALPHA, REAL(*) X, INTEGER INCX, REAL(*) Y, INTEGER INCY ) ;
|
||||
|
||||
SUBROUTINE: DSWAP
|
||||
( INTEGER N, DOUBLE-PRECISION(*) X, INTEGER INCX, DOUBLE-PRECISION(*) Y, INTEGER INCY ) ;
|
||||
SUBROUTINE: DCOPY
|
||||
( INTEGER N, DOUBLE-PRECISION(*) X, INTEGER INCX, DOUBLE-PRECISION(*) Y, INTEGER INCY ) ;
|
||||
SUBROUTINE: DAXPY
|
||||
( INTEGER N, DOUBLE-PRECISION ALPHA, DOUBLE-PRECISION(*) X, INTEGER INCX, DOUBLE-PRECISION(*) Y, INTEGER INCY ) ;
|
||||
|
||||
SUBROUTINE: CSWAP
|
||||
( INTEGER N, COMPLEX(*) X, INTEGER INCX, COMPLEX(*) Y, INTEGER INCY ) ;
|
||||
SUBROUTINE: CCOPY
|
||||
( INTEGER N, COMPLEX(*) X, INTEGER INCX, COMPLEX(*) Y, INTEGER INCY ) ;
|
||||
SUBROUTINE: CAXPY
|
||||
( INTEGER N, COMPLEX ALPHA, COMPLEX(*) X, INTEGER INCX, COMPLEX(*) Y, INTEGER INCY ) ;
|
||||
|
||||
SUBROUTINE: ZSWAP
|
||||
( INTEGER N, DOUBLE-COMPLEX(*) X, INTEGER INCX, DOUBLE-COMPLEX(*) Y, INTEGER INCY ) ;
|
||||
SUBROUTINE: ZCOPY
|
||||
( INTEGER N, DOUBLE-COMPLEX(*) X, INTEGER INCX, DOUBLE-COMPLEX(*) Y, INTEGER INCY ) ;
|
||||
SUBROUTINE: ZAXPY
|
||||
( INTEGER N, DOUBLE-COMPLEX ALPHA, DOUBLE-COMPLEX(*) X, INTEGER INCX, DOUBLE-COMPLEX(*) Y, INTEGER INCY ) ;
|
||||
|
||||
SUBROUTINE: SSCAL
|
||||
( INTEGER N, REAL ALPHA, REAL(*) X, INTEGER INCX ) ;
|
||||
SUBROUTINE: DSCAL
|
||||
( INTEGER N, DOUBLE-PRECISION ALPHA, DOUBLE-PRECISION(*) X, INTEGER INCX ) ;
|
||||
SUBROUTINE: CSCAL
|
||||
( INTEGER N, COMPLEX ALPHA, COMPLEX(*) X, INTEGER INCX ) ;
|
||||
SUBROUTINE: ZSCAL
|
||||
( INTEGER N, DOUBLE-COMPLEX ALPHA, DOUBLE-COMPLEX(*) X, INTEGER INCX ) ;
|
||||
SUBROUTINE: CSSCAL
|
||||
( INTEGER N, REAL ALPHA, COMPLEX(*) X, INTEGER INCX ) ;
|
||||
SUBROUTINE: ZDSCAL
|
||||
( INTEGER N, DOUBLE-PRECISION ALPHA, DOUBLE-COMPLEX(*) X, INTEGER INCX ) ;
|
||||
|
||||
SUBROUTINE: SROTG
|
||||
( REAL(*) A, REAL(*) B, REAL(*) C, REAL(*) S ) ;
|
||||
SUBROUTINE: SROTMG
|
||||
( REAL(*) D1, REAL(*) D2, REAL(*) B1, REAL B2, REAL(*) P ) ;
|
||||
SUBROUTINE: SROT
|
||||
( INTEGER N, REAL(*) X, INTEGER INCX, REAL(*) Y, INTEGER INCY, REAL C, REAL S ) ;
|
||||
SUBROUTINE: SROTM
|
||||
( INTEGER N, REAL(*) X, INTEGER INCX, REAL(*) Y, INTEGER INCY, REAL(*) P ) ;
|
||||
|
||||
SUBROUTINE: DROTG
|
||||
( DOUBLE-PRECISION(*) A, DOUBLE-PRECISION(*) B, DOUBLE-PRECISION(*) C, DOUBLE-PRECISION(*) S ) ;
|
||||
SUBROUTINE: DROTMG
|
||||
( DOUBLE-PRECISION(*) D1, DOUBLE-PRECISION(*) D2, DOUBLE-PRECISION(*) B1, DOUBLE-PRECISION B2, DOUBLE-PRECISION(*) P ) ;
|
||||
SUBROUTINE: DROT
|
||||
( INTEGER N, DOUBLE-PRECISION(*) X, INTEGER INCX, DOUBLE-PRECISION(*) Y, INTEGER INCY, DOUBLE-PRECISION C, DOUBLE-PRECISION S ) ;
|
||||
SUBROUTINE: DROTM
|
||||
( INTEGER N, DOUBLE-PRECISION(*) X, INTEGER INCX, DOUBLE-PRECISION(*) Y, INTEGER INCY, DOUBLE-PRECISION(*) P ) ;
|
||||
|
||||
! LEVEL 2 BLAS (MATRIX-VECTOR)
|
||||
|
||||
SUBROUTINE: SGEMV ( CHARACTER*1 TRANSA, INTEGER M, INTEGER N,
|
||||
REAL ALPHA, REAL(*) A, INTEGER LDA,
|
||||
REAL(*) X, INTEGER INCX, REAL BETA,
|
||||
REAL(*) Y, INTEGER INCY ) ;
|
||||
SUBROUTINE: SGBMV ( CHARACTER*1 TRANSA, INTEGER M, INTEGER N,
|
||||
INTEGER KL, INTEGER KU, REAL ALPHA,
|
||||
REAL(*) A, INTEGER LDA, REAL(*) X,
|
||||
INTEGER INCX, REAL BETA, REAL(*) Y, INTEGER INCY ) ;
|
||||
SUBROUTINE: STRMV ( CHARACTER*1 UPLO,
|
||||
CHARACTER*1 TRANSA, CHARACTER*1 DIAG,
|
||||
INTEGER N, REAL(*) A, INTEGER LDA,
|
||||
REAL(*) X, INTEGER INCX ) ;
|
||||
SUBROUTINE: STBMV ( CHARACTER*1 UPLO,
|
||||
CHARACTER*1 TRANSA, CHARACTER*1 DIAG,
|
||||
INTEGER N, INTEGER K, REAL(*) A, INTEGER LDA,
|
||||
REAL(*) X, INTEGER INCX ) ;
|
||||
SUBROUTINE: STPMV ( CHARACTER*1 UPLO,
|
||||
CHARACTER*1 TRANSA, CHARACTER*1 DIAG,
|
||||
INTEGER N, REAL(*) AP, REAL(*) X, INTEGER INCX ) ;
|
||||
SUBROUTINE: STRSV ( CHARACTER*1 UPLO,
|
||||
CHARACTER*1 TRANSA, CHARACTER*1 DIAG,
|
||||
INTEGER N, REAL(*) A, INTEGER LDA, REAL(*) X,
|
||||
INTEGER INCX ) ;
|
||||
SUBROUTINE: STBSV ( CHARACTER*1 UPLO,
|
||||
CHARACTER*1 TRANSA, CHARACTER*1 DIAG,
|
||||
INTEGER N, INTEGER K, REAL(*) A, INTEGER LDA,
|
||||
REAL(*) X, INTEGER INCX ) ;
|
||||
SUBROUTINE: STPSV ( CHARACTER*1 UPLO,
|
||||
CHARACTER*1 TRANSA, CHARACTER*1 DIAG,
|
||||
INTEGER N, REAL(*) AP, REAL(*) X, INTEGER INCX ) ;
|
||||
|
||||
SUBROUTINE: DGEMV ( CHARACTER*1 TRANSA, INTEGER M, INTEGER N,
|
||||
DOUBLE-PRECISION ALPHA, DOUBLE-PRECISION(*) A, INTEGER LDA,
|
||||
DOUBLE-PRECISION(*) X, INTEGER INCX, DOUBLE-PRECISION BETA,
|
||||
DOUBLE-PRECISION(*) Y, INTEGER INCY ) ;
|
||||
SUBROUTINE: DGBMV ( CHARACTER*1 TRANSA, INTEGER M, INTEGER N,
|
||||
INTEGER KL, INTEGER KU, DOUBLE-PRECISION ALPHA,
|
||||
DOUBLE-PRECISION(*) A, INTEGER LDA, DOUBLE-PRECISION(*) X,
|
||||
INTEGER INCX, DOUBLE-PRECISION BETA, DOUBLE-PRECISION(*) Y, INTEGER INCY ) ;
|
||||
SUBROUTINE: DTRMV ( CHARACTER*1 UPLO,
|
||||
CHARACTER*1 TRANSA, CHARACTER*1 DIAG,
|
||||
INTEGER N, DOUBLE-PRECISION(*) A, INTEGER LDA,
|
||||
DOUBLE-PRECISION(*) X, INTEGER INCX ) ;
|
||||
SUBROUTINE: DTBMV ( CHARACTER*1 UPLO,
|
||||
CHARACTER*1 TRANSA, CHARACTER*1 DIAG,
|
||||
INTEGER N, INTEGER K, DOUBLE-PRECISION(*) A, INTEGER LDA,
|
||||
DOUBLE-PRECISION(*) X, INTEGER INCX ) ;
|
||||
SUBROUTINE: DTPMV ( CHARACTER*1 UPLO,
|
||||
CHARACTER*1 TRANSA, CHARACTER*1 DIAG,
|
||||
INTEGER N, DOUBLE-PRECISION(*) AP, DOUBLE-PRECISION(*) X, INTEGER INCX ) ;
|
||||
SUBROUTINE: DTRSV ( CHARACTER*1 UPLO,
|
||||
CHARACTER*1 TRANSA, CHARACTER*1 DIAG,
|
||||
INTEGER N, DOUBLE-PRECISION(*) A, INTEGER LDA, DOUBLE-PRECISION(*) X,
|
||||
INTEGER INCX ) ;
|
||||
SUBROUTINE: DTBSV ( CHARACTER*1 UPLO,
|
||||
CHARACTER*1 TRANSA, CHARACTER*1 DIAG,
|
||||
INTEGER N, INTEGER K, DOUBLE-PRECISION(*) A, INTEGER LDA,
|
||||
DOUBLE-PRECISION(*) X, INTEGER INCX ) ;
|
||||
SUBROUTINE: DTPSV ( CHARACTER*1 UPLO,
|
||||
CHARACTER*1 TRANSA, CHARACTER*1 DIAG,
|
||||
INTEGER N, DOUBLE-PRECISION(*) AP, DOUBLE-PRECISION(*) X, INTEGER INCX ) ;
|
||||
|
||||
SUBROUTINE: CGEMV ( CHARACTER*1 TRANSA, INTEGER M, INTEGER N,
|
||||
COMPLEX ALPHA, COMPLEX(*) A, INTEGER LDA,
|
||||
COMPLEX(*) X, INTEGER INCX, COMPLEX BETA,
|
||||
COMPLEX(*) Y, INTEGER INCY ) ;
|
||||
SUBROUTINE: CGBMV ( CHARACTER*1 TRANSA, INTEGER M, INTEGER N,
|
||||
INTEGER KL, INTEGER KU, COMPLEX ALPHA,
|
||||
COMPLEX(*) A, INTEGER LDA, COMPLEX(*) X,
|
||||
INTEGER INCX, COMPLEX BETA, COMPLEX(*) Y, INTEGER INCY ) ;
|
||||
SUBROUTINE: CTRMV ( CHARACTER*1 UPLO,
|
||||
CHARACTER*1 TRANSA, CHARACTER*1 DIAG,
|
||||
INTEGER N, COMPLEX(*) A, INTEGER LDA,
|
||||
COMPLEX(*) X, INTEGER INCX ) ;
|
||||
SUBROUTINE: CTBMV ( CHARACTER*1 UPLO,
|
||||
CHARACTER*1 TRANSA, CHARACTER*1 DIAG,
|
||||
INTEGER N, INTEGER K, COMPLEX(*) A, INTEGER LDA,
|
||||
COMPLEX(*) X, INTEGER INCX ) ;
|
||||
SUBROUTINE: CTPMV ( CHARACTER*1 UPLO,
|
||||
CHARACTER*1 TRANSA, CHARACTER*1 DIAG,
|
||||
INTEGER N, COMPLEX(*) AP, COMPLEX(*) X, INTEGER INCX ) ;
|
||||
SUBROUTINE: CTRSV ( CHARACTER*1 UPLO,
|
||||
CHARACTER*1 TRANSA, CHARACTER*1 DIAG,
|
||||
INTEGER N, COMPLEX(*) A, INTEGER LDA, COMPLEX(*) X,
|
||||
INTEGER INCX ) ;
|
||||
SUBROUTINE: CTBSV ( CHARACTER*1 UPLO,
|
||||
CHARACTER*1 TRANSA, CHARACTER*1 DIAG,
|
||||
INTEGER N, INTEGER K, COMPLEX(*) A, INTEGER LDA,
|
||||
COMPLEX(*) X, INTEGER INCX ) ;
|
||||
SUBROUTINE: CTPSV ( CHARACTER*1 UPLO,
|
||||
CHARACTER*1 TRANSA, CHARACTER*1 DIAG,
|
||||
INTEGER N, COMPLEX(*) AP, COMPLEX(*) X, INTEGER INCX ) ;
|
||||
|
||||
SUBROUTINE: ZGEMV ( CHARACTER*1 TRANSA, INTEGER M, INTEGER N,
|
||||
DOUBLE-COMPLEX ALPHA, DOUBLE-COMPLEX(*) A, INTEGER LDA,
|
||||
DOUBLE-COMPLEX(*) X, INTEGER INCX, DOUBLE-COMPLEX BETA,
|
||||
DOUBLE-COMPLEX(*) Y, INTEGER INCY ) ;
|
||||
SUBROUTINE: ZGBMV ( CHARACTER*1 TRANSA, INTEGER M, INTEGER N,
|
||||
INTEGER KL, INTEGER KU, DOUBLE-COMPLEX ALPHA,
|
||||
DOUBLE-COMPLEX(*) A, INTEGER LDA, DOUBLE-COMPLEX(*) X,
|
||||
INTEGER INCX, DOUBLE-COMPLEX BETA, DOUBLE-COMPLEX(*) Y, INTEGER INCY ) ;
|
||||
SUBROUTINE: ZTRMV ( CHARACTER*1 UPLO,
|
||||
CHARACTER*1 TRANSA, CHARACTER*1 DIAG,
|
||||
INTEGER N, DOUBLE-COMPLEX(*) A, INTEGER LDA,
|
||||
DOUBLE-COMPLEX(*) X, INTEGER INCX ) ;
|
||||
SUBROUTINE: ZTBMV ( CHARACTER*1 UPLO,
|
||||
CHARACTER*1 TRANSA, CHARACTER*1 DIAG,
|
||||
INTEGER N, INTEGER K, DOUBLE-COMPLEX(*) A, INTEGER LDA,
|
||||
DOUBLE-COMPLEX(*) X, INTEGER INCX ) ;
|
||||
SUBROUTINE: ZTPMV ( CHARACTER*1 UPLO,
|
||||
CHARACTER*1 TRANSA, CHARACTER*1 DIAG,
|
||||
INTEGER N, DOUBLE-COMPLEX(*) AP, DOUBLE-COMPLEX(*) X, INTEGER INCX ) ;
|
||||
SUBROUTINE: ZTRSV ( CHARACTER*1 UPLO,
|
||||
CHARACTER*1 TRANSA, CHARACTER*1 DIAG,
|
||||
INTEGER N, DOUBLE-COMPLEX(*) A, INTEGER LDA, DOUBLE-COMPLEX(*) X,
|
||||
INTEGER INCX ) ;
|
||||
SUBROUTINE: ZTBSV ( CHARACTER*1 UPLO,
|
||||
CHARACTER*1 TRANSA, CHARACTER*1 DIAG,
|
||||
INTEGER N, INTEGER K, DOUBLE-COMPLEX(*) A, INTEGER LDA,
|
||||
DOUBLE-COMPLEX(*) X, INTEGER INCX ) ;
|
||||
SUBROUTINE: ZTPSV ( CHARACTER*1 UPLO,
|
||||
CHARACTER*1 TRANSA, CHARACTER*1 DIAG,
|
||||
INTEGER N, DOUBLE-COMPLEX(*) AP, DOUBLE-COMPLEX(*) X, INTEGER INCX ) ;
|
||||
|
||||
|
||||
SUBROUTINE: SSYMV ( CHARACTER*1 UPLO,
|
||||
INTEGER N, REAL ALPHA, REAL(*) A,
|
||||
INTEGER LDA, REAL(*) X, INTEGER INCX,
|
||||
REAL BETA, REAL(*) Y, INTEGER INCY ) ;
|
||||
SUBROUTINE: SSBMV ( CHARACTER*1 UPLO,
|
||||
INTEGER N, INTEGER K, REAL ALPHA, REAL(*) A,
|
||||
INTEGER LDA, REAL(*) X, INTEGER INCX,
|
||||
REAL BETA, REAL(*) Y, INTEGER INCY ) ;
|
||||
SUBROUTINE: SSPMV ( CHARACTER*1 UPLO,
|
||||
INTEGER N, REAL ALPHA, REAL(*) AP,
|
||||
REAL(*) X, INTEGER INCX,
|
||||
REAL BETA, REAL(*) Y, INTEGER INCY ) ;
|
||||
SUBROUTINE: SGER ( INTEGER M, INTEGER N,
|
||||
REAL ALPHA, REAL(*) X, INTEGER INCX,
|
||||
REAL(*) Y, INTEGER INCY, REAL(*) A, INTEGER LDA ) ;
|
||||
SUBROUTINE: SSYR ( CHARACTER*1 UPLO,
|
||||
INTEGER N, REAL ALPHA, REAL(*) X,
|
||||
INTEGER INCX, REAL(*) A, INTEGER LDA ) ;
|
||||
SUBROUTINE: SSPR ( CHARACTER*1 UPLO,
|
||||
INTEGER N, REAL ALPHA, REAL(*) X,
|
||||
INTEGER INCX, REAL(*) AP ) ;
|
||||
SUBROUTINE: SSYR2 ( CHARACTER*1 UPLO,
|
||||
INTEGER N, REAL ALPHA, REAL(*) X,
|
||||
INTEGER INCX, REAL(*) Y, INTEGER INCY, REAL(*) A,
|
||||
INTEGER LDA ) ;
|
||||
SUBROUTINE: SSPR2 ( CHARACTER*1 UPLO,
|
||||
INTEGER N, REAL ALPHA, REAL(*) X,
|
||||
INTEGER INCX, REAL(*) Y, INTEGER INCY, REAL(*) A ) ;
|
||||
|
||||
SUBROUTINE: DSYMV ( CHARACTER*1 UPLO,
|
||||
INTEGER N, DOUBLE-PRECISION ALPHA, DOUBLE-PRECISION(*) A,
|
||||
INTEGER LDA, DOUBLE-PRECISION(*) X, INTEGER INCX,
|
||||
DOUBLE-PRECISION BETA, DOUBLE-PRECISION(*) Y, INTEGER INCY ) ;
|
||||
SUBROUTINE: DSBMV ( CHARACTER*1 UPLO,
|
||||
INTEGER N, INTEGER K, DOUBLE-PRECISION ALPHA, DOUBLE-PRECISION(*) A,
|
||||
INTEGER LDA, DOUBLE-PRECISION(*) X, INTEGER INCX,
|
||||
DOUBLE-PRECISION BETA, DOUBLE-PRECISION(*) Y, INTEGER INCY ) ;
|
||||
SUBROUTINE: DSPMV ( CHARACTER*1 UPLO,
|
||||
INTEGER N, DOUBLE-PRECISION ALPHA, DOUBLE-PRECISION(*) AP,
|
||||
DOUBLE-PRECISION(*) X, INTEGER INCX,
|
||||
DOUBLE-PRECISION BETA, DOUBLE-PRECISION(*) Y, INTEGER INCY ) ;
|
||||
SUBROUTINE: DGER ( INTEGER M, INTEGER N,
|
||||
DOUBLE-PRECISION ALPHA, DOUBLE-PRECISION(*) X, INTEGER INCX,
|
||||
DOUBLE-PRECISION(*) Y, INTEGER INCY, DOUBLE-PRECISION(*) A, INTEGER LDA ) ;
|
||||
SUBROUTINE: DSYR ( CHARACTER*1 UPLO,
|
||||
INTEGER N, DOUBLE-PRECISION ALPHA, DOUBLE-PRECISION(*) X,
|
||||
INTEGER INCX, DOUBLE-PRECISION(*) A, INTEGER LDA ) ;
|
||||
SUBROUTINE: DSPR ( CHARACTER*1 UPLO,
|
||||
INTEGER N, DOUBLE-PRECISION ALPHA, DOUBLE-PRECISION(*) X,
|
||||
INTEGER INCX, DOUBLE-PRECISION(*) AP ) ;
|
||||
SUBROUTINE: DSYR2 ( CHARACTER*1 UPLO,
|
||||
INTEGER N, DOUBLE-PRECISION ALPHA, DOUBLE-PRECISION(*) X,
|
||||
INTEGER INCX, DOUBLE-PRECISION(*) Y, INTEGER INCY, DOUBLE-PRECISION(*) A,
|
||||
INTEGER LDA ) ;
|
||||
SUBROUTINE: DSPR2 ( CHARACTER*1 UPLO,
|
||||
INTEGER N, DOUBLE-PRECISION ALPHA, DOUBLE-PRECISION(*) X,
|
||||
INTEGER INCX, DOUBLE-PRECISION(*) Y, INTEGER INCY, DOUBLE-PRECISION(*) A ) ;
|
||||
|
||||
|
||||
SUBROUTINE: CHEMV ( CHARACTER*1 UPLO,
|
||||
INTEGER N, COMPLEX ALPHA, COMPLEX(*) A,
|
||||
INTEGER LDA, COMPLEX(*) X, INTEGER INCX,
|
||||
COMPLEX BETA, COMPLEX(*) Y, INTEGER INCY ) ;
|
||||
SUBROUTINE: CHBMV ( CHARACTER*1 UPLO,
|
||||
INTEGER N, INTEGER K, COMPLEX ALPHA, COMPLEX(*) A,
|
||||
INTEGER LDA, COMPLEX(*) X, INTEGER INCX,
|
||||
COMPLEX BETA, COMPLEX(*) Y, INTEGER INCY ) ;
|
||||
SUBROUTINE: CHPMV ( CHARACTER*1 UPLO,
|
||||
INTEGER N, COMPLEX ALPHA, COMPLEX(*) AP,
|
||||
COMPLEX(*) X, INTEGER INCX,
|
||||
COMPLEX BETA, COMPLEX(*) Y, INTEGER INCY ) ;
|
||||
SUBROUTINE: CGERU ( INTEGER M, INTEGER N,
|
||||
COMPLEX ALPHA, COMPLEX(*) X, INTEGER INCX,
|
||||
COMPLEX(*) Y, INTEGER INCY, COMPLEX(*) A, INTEGER LDA ) ;
|
||||
SUBROUTINE: CGERC ( INTEGER M, INTEGER N,
|
||||
COMPLEX ALPHA, COMPLEX(*) X, INTEGER INCX,
|
||||
COMPLEX(*) Y, INTEGER INCY, COMPLEX(*) A, INTEGER LDA ) ;
|
||||
SUBROUTINE: CHER ( CHARACTER*1 UPLO,
|
||||
INTEGER N, REAL ALPHA, COMPLEX(*) X, INTEGER INCX,
|
||||
COMPLEX(*) A, INTEGER LDA ) ;
|
||||
SUBROUTINE: CHPR ( CHARACTER*1 UPLO,
|
||||
INTEGER N, REAL ALPHA, COMPLEX(*) X,
|
||||
INTEGER INCX, COMPLEX(*) A ) ;
|
||||
SUBROUTINE: CHER2 ( CHARACTER*1 UPLO, INTEGER N,
|
||||
COMPLEX ALPHA, COMPLEX(*) X, INTEGER INCX,
|
||||
COMPLEX(*) Y, INTEGER INCY, COMPLEX(*) A, INTEGER LDA ) ;
|
||||
SUBROUTINE: CHPR2 ( CHARACTER*1 UPLO, INTEGER N,
|
||||
COMPLEX ALPHA, COMPLEX(*) X, INTEGER INCX,
|
||||
COMPLEX(*) Y, INTEGER INCY, COMPLEX(*) AP ) ;
|
||||
|
||||
SUBROUTINE: ZHEMV ( CHARACTER*1 UPLO,
|
||||
INTEGER N, DOUBLE-COMPLEX ALPHA, DOUBLE-COMPLEX(*) A,
|
||||
INTEGER LDA, DOUBLE-COMPLEX(*) X, INTEGER INCX,
|
||||
DOUBLE-COMPLEX BETA, DOUBLE-COMPLEX(*) Y, INTEGER INCY ) ;
|
||||
SUBROUTINE: ZHBMV ( CHARACTER*1 UPLO,
|
||||
INTEGER N, INTEGER K, DOUBLE-COMPLEX ALPHA, DOUBLE-COMPLEX(*) A,
|
||||
INTEGER LDA, DOUBLE-COMPLEX(*) X, INTEGER INCX,
|
||||
DOUBLE-COMPLEX BETA, DOUBLE-COMPLEX(*) Y, INTEGER INCY ) ;
|
||||
SUBROUTINE: ZHPMV ( CHARACTER*1 UPLO,
|
||||
INTEGER N, DOUBLE-COMPLEX ALPHA, DOUBLE-COMPLEX(*) AP,
|
||||
DOUBLE-COMPLEX(*) X, INTEGER INCX,
|
||||
DOUBLE-COMPLEX BETA, DOUBLE-COMPLEX(*) Y, INTEGER INCY ) ;
|
||||
SUBROUTINE: ZGERU ( INTEGER M, INTEGER N,
|
||||
DOUBLE-COMPLEX ALPHA, DOUBLE-COMPLEX(*) X, INTEGER INCX,
|
||||
DOUBLE-COMPLEX(*) Y, INTEGER INCY, DOUBLE-COMPLEX(*) A, INTEGER LDA ) ;
|
||||
SUBROUTINE: ZGERC ( INTEGER M, INTEGER N,
|
||||
DOUBLE-COMPLEX ALPHA, DOUBLE-COMPLEX(*) X, INTEGER INCX,
|
||||
DOUBLE-COMPLEX(*) Y, INTEGER INCY, DOUBLE-COMPLEX(*) A, INTEGER LDA ) ;
|
||||
SUBROUTINE: ZHER ( CHARACTER*1 UPLO,
|
||||
INTEGER N, REAL ALPHA, DOUBLE-COMPLEX(*) X, INTEGER INCX,
|
||||
DOUBLE-COMPLEX(*) A, INTEGER LDA ) ;
|
||||
SUBROUTINE: ZHPR ( CHARACTER*1 UPLO,
|
||||
INTEGER N, REAL ALPHA, DOUBLE-COMPLEX(*) X,
|
||||
INTEGER INCX, DOUBLE-COMPLEX(*) A ) ;
|
||||
SUBROUTINE: ZHER2 ( CHARACTER*1 UPLO, INTEGER N,
|
||||
DOUBLE-COMPLEX ALPHA, DOUBLE-COMPLEX(*) X, INTEGER INCX,
|
||||
DOUBLE-COMPLEX(*) Y, INTEGER INCY, DOUBLE-COMPLEX(*) A, INTEGER LDA ) ;
|
||||
SUBROUTINE: ZHPR2 ( CHARACTER*1 UPLO, INTEGER N,
|
||||
DOUBLE-COMPLEX ALPHA, DOUBLE-COMPLEX(*) X, INTEGER INCX,
|
||||
DOUBLE-COMPLEX(*) Y, INTEGER INCY, DOUBLE-COMPLEX(*) AP ) ;
|
||||
|
||||
! LEVEL 3 BLAS (MATRIX-MATRIX)
|
||||
|
||||
SUBROUTINE: SGEMM ( CHARACTER*1 TRANSA,
|
||||
CHARACTER*1 TRANSB, INTEGER M, INTEGER N,
|
||||
INTEGER K, REAL ALPHA, REAL(*) A,
|
||||
INTEGER LDA, REAL(*) B, INTEGER LDB,
|
||||
REAL BETA, REAL(*) C, INTEGER LDC ) ;
|
||||
SUBROUTINE: SSYMM ( CHARACTER*1 SIDE,
|
||||
CHARACTER*1 UPLO, INTEGER M, INTEGER N,
|
||||
REAL ALPHA, REAL(*) A, INTEGER LDA,
|
||||
REAL(*) B, INTEGER LDB, REAL BETA,
|
||||
REAL(*) C, INTEGER LDC ) ;
|
||||
SUBROUTINE: SSYRK ( CHARACTER*1 UPLO,
|
||||
CHARACTER*1 TRANS, INTEGER N, INTEGER K,
|
||||
REAL ALPHA, REAL(*) A, INTEGER LDA,
|
||||
REAL BETA, REAL(*) C, INTEGER LDC ) ;
|
||||
SUBROUTINE: SSYR2K ( CHARACTER*1 UPLO,
|
||||
CHARACTER*1 TRANS, INTEGER N, INTEGER K,
|
||||
REAL ALPHA, REAL(*) A, INTEGER LDA,
|
||||
REAL(*) B, INTEGER LDB, REAL BETA,
|
||||
REAL(*) C, INTEGER LDC ) ;
|
||||
SUBROUTINE: STRMM ( CHARACTER*1 SIDE,
|
||||
CHARACTER*1 UPLO, CHARACTER*1 TRANSA,
|
||||
CHARACTER*1 DIAG, INTEGER M, INTEGER N,
|
||||
REAL ALPHA, REAL(*) A, INTEGER LDA,
|
||||
REAL(*) B, INTEGER LDB ) ;
|
||||
SUBROUTINE: STRSM ( CHARACTER*1 SIDE,
|
||||
CHARACTER*1 UPLO, CHARACTER*1 TRANSA,
|
||||
CHARACTER*1 DIAG, INTEGER M, INTEGER N,
|
||||
REAL ALPHA, REAL(*) A, INTEGER LDA,
|
||||
REAL(*) B, INTEGER LDB ) ;
|
||||
|
||||
SUBROUTINE: DGEMM ( CHARACTER*1 TRANSA,
|
||||
CHARACTER*1 TRANSB, INTEGER M, INTEGER N,
|
||||
INTEGER K, DOUBLE-PRECISION ALPHA, DOUBLE-PRECISION(*) A,
|
||||
INTEGER LDA, DOUBLE-PRECISION(*) B, INTEGER LDB,
|
||||
DOUBLE-PRECISION BETA, DOUBLE-PRECISION(*) C, INTEGER LDC ) ;
|
||||
SUBROUTINE: DSYMM ( CHARACTER*1 SIDE,
|
||||
CHARACTER*1 UPLO, INTEGER M, INTEGER N,
|
||||
DOUBLE-PRECISION ALPHA, DOUBLE-PRECISION(*) A, INTEGER LDA,
|
||||
DOUBLE-PRECISION(*) B, INTEGER LDB, DOUBLE-PRECISION BETA,
|
||||
DOUBLE-PRECISION(*) C, INTEGER LDC ) ;
|
||||
SUBROUTINE: DSYRK ( CHARACTER*1 UPLO,
|
||||
CHARACTER*1 TRANS, INTEGER N, INTEGER K,
|
||||
DOUBLE-PRECISION ALPHA, DOUBLE-PRECISION(*) A, INTEGER LDA,
|
||||
DOUBLE-PRECISION BETA, DOUBLE-PRECISION(*) C, INTEGER LDC ) ;
|
||||
SUBROUTINE: DSYR2K ( CHARACTER*1 UPLO,
|
||||
CHARACTER*1 TRANS, INTEGER N, INTEGER K,
|
||||
DOUBLE-PRECISION ALPHA, DOUBLE-PRECISION(*) A, INTEGER LDA,
|
||||
DOUBLE-PRECISION(*) B, INTEGER LDB, DOUBLE-PRECISION BETA,
|
||||
DOUBLE-PRECISION(*) C, INTEGER LDC ) ;
|
||||
SUBROUTINE: DTRMM ( CHARACTER*1 SIDE,
|
||||
CHARACTER*1 UPLO, CHARACTER*1 TRANSA,
|
||||
CHARACTER*1 DIAG, INTEGER M, INTEGER N,
|
||||
DOUBLE-PRECISION ALPHA, DOUBLE-PRECISION(*) A, INTEGER LDA,
|
||||
DOUBLE-PRECISION(*) B, INTEGER LDB ) ;
|
||||
SUBROUTINE: DTRSM ( CHARACTER*1 SIDE,
|
||||
CHARACTER*1 UPLO, CHARACTER*1 TRANSA,
|
||||
CHARACTER*1 DIAG, INTEGER M, INTEGER N,
|
||||
DOUBLE-PRECISION ALPHA, DOUBLE-PRECISION(*) A, INTEGER LDA,
|
||||
DOUBLE-PRECISION(*) B, INTEGER LDB ) ;
|
||||
|
||||
SUBROUTINE: CGEMM ( CHARACTER*1 TRANSA,
|
||||
CHARACTER*1 TRANSB, INTEGER M, INTEGER N,
|
||||
INTEGER K, COMPLEX ALPHA, COMPLEX(*) A,
|
||||
INTEGER LDA, COMPLEX(*) B, INTEGER LDB,
|
||||
COMPLEX BETA, COMPLEX(*) C, INTEGER LDC ) ;
|
||||
SUBROUTINE: CSYMM ( CHARACTER*1 SIDE,
|
||||
CHARACTER*1 UPLO, INTEGER M, INTEGER N,
|
||||
COMPLEX ALPHA, COMPLEX(*) A, INTEGER LDA,
|
||||
COMPLEX(*) B, INTEGER LDB, COMPLEX BETA,
|
||||
COMPLEX(*) C, INTEGER LDC ) ;
|
||||
SUBROUTINE: CSYRK ( CHARACTER*1 UPLO,
|
||||
CHARACTER*1 TRANS, INTEGER N, INTEGER K,
|
||||
COMPLEX ALPHA, COMPLEX(*) A, INTEGER LDA,
|
||||
COMPLEX BETA, COMPLEX(*) C, INTEGER LDC ) ;
|
||||
SUBROUTINE: CSYR2K ( CHARACTER*1 UPLO,
|
||||
CHARACTER*1 TRANS, INTEGER N, INTEGER K,
|
||||
COMPLEX ALPHA, COMPLEX(*) A, INTEGER LDA,
|
||||
COMPLEX(*) B, INTEGER LDB, COMPLEX BETA,
|
||||
COMPLEX(*) C, INTEGER LDC ) ;
|
||||
SUBROUTINE: CTRMM ( CHARACTER*1 SIDE,
|
||||
CHARACTER*1 UPLO, CHARACTER*1 TRANSA,
|
||||
CHARACTER*1 DIAG, INTEGER M, INTEGER N,
|
||||
COMPLEX ALPHA, COMPLEX(*) A, INTEGER LDA,
|
||||
COMPLEX(*) B, INTEGER LDB ) ;
|
||||
SUBROUTINE: CTRSM ( CHARACTER*1 SIDE,
|
||||
CHARACTER*1 UPLO, CHARACTER*1 TRANSA,
|
||||
CHARACTER*1 DIAG, INTEGER M, INTEGER N,
|
||||
COMPLEX ALPHA, COMPLEX(*) A, INTEGER LDA,
|
||||
COMPLEX(*) B, INTEGER LDB ) ;
|
||||
|
||||
SUBROUTINE: ZGEMM ( CHARACTER*1 TRANSA,
|
||||
CHARACTER*1 TRANSB, INTEGER M, INTEGER N,
|
||||
INTEGER K, DOUBLE-COMPLEX ALPHA, DOUBLE-COMPLEX(*) A,
|
||||
INTEGER LDA, DOUBLE-COMPLEX(*) B, INTEGER LDB,
|
||||
DOUBLE-COMPLEX BETA, DOUBLE-COMPLEX(*) C, INTEGER LDC ) ;
|
||||
SUBROUTINE: ZSYMM ( CHARACTER*1 SIDE,
|
||||
CHARACTER*1 UPLO, INTEGER M, INTEGER N,
|
||||
DOUBLE-COMPLEX ALPHA, DOUBLE-COMPLEX(*) A, INTEGER LDA,
|
||||
DOUBLE-COMPLEX(*) B, INTEGER LDB, DOUBLE-COMPLEX BETA,
|
||||
DOUBLE-COMPLEX(*) C, INTEGER LDC ) ;
|
||||
SUBROUTINE: ZSYRK ( CHARACTER*1 UPLO,
|
||||
CHARACTER*1 TRANS, INTEGER N, INTEGER K,
|
||||
DOUBLE-COMPLEX ALPHA, DOUBLE-COMPLEX(*) A, INTEGER LDA,
|
||||
DOUBLE-COMPLEX BETA, DOUBLE-COMPLEX(*) C, INTEGER LDC ) ;
|
||||
SUBROUTINE: ZSYR2K ( CHARACTER*1 UPLO,
|
||||
CHARACTER*1 TRANS, INTEGER N, INTEGER K,
|
||||
DOUBLE-COMPLEX ALPHA, DOUBLE-COMPLEX(*) A, INTEGER LDA,
|
||||
DOUBLE-COMPLEX(*) B, INTEGER LDB, DOUBLE-COMPLEX BETA,
|
||||
DOUBLE-COMPLEX(*) C, INTEGER LDC ) ;
|
||||
SUBROUTINE: ZTRMM ( CHARACTER*1 SIDE,
|
||||
CHARACTER*1 UPLO, CHARACTER*1 TRANSA,
|
||||
CHARACTER*1 DIAG, INTEGER M, INTEGER N,
|
||||
DOUBLE-COMPLEX ALPHA, DOUBLE-COMPLEX(*) A, INTEGER LDA,
|
||||
DOUBLE-COMPLEX(*) B, INTEGER LDB ) ;
|
||||
SUBROUTINE: ZTRSM ( CHARACTER*1 SIDE,
|
||||
CHARACTER*1 UPLO, CHARACTER*1 TRANSA,
|
||||
CHARACTER*1 DIAG, INTEGER M, INTEGER N,
|
||||
DOUBLE-COMPLEX ALPHA, DOUBLE-COMPLEX(*) A, INTEGER LDA,
|
||||
DOUBLE-COMPLEX(*) B, INTEGER LDB ) ;
|
||||
|
||||
SUBROUTINE: CHEMM ( CHARACTER*1 SIDE,
|
||||
CHARACTER*1 UPLO, INTEGER M, INTEGER N,
|
||||
COMPLEX ALPHA, COMPLEX(*) A, INTEGER LDA,
|
||||
COMPLEX(*) B, INTEGER LDB, COMPLEX BETA,
|
||||
COMPLEX(*) C, INTEGER LDC ) ;
|
||||
SUBROUTINE: CHERK ( CHARACTER*1 UPLO,
|
||||
CHARACTER*1 TRANS, INTEGER N, INTEGER K,
|
||||
REAL ALPHA, COMPLEX(*) A, INTEGER LDA,
|
||||
REAL BETA, COMPLEX(*) C, INTEGER LDC ) ;
|
||||
SUBROUTINE: CHER2K ( CHARACTER*1 UPLO,
|
||||
CHARACTER*1 TRANS, INTEGER N, INTEGER K,
|
||||
COMPLEX ALPHA, COMPLEX(*) A, INTEGER LDA,
|
||||
COMPLEX(*) B, INTEGER LDB, REAL BETA,
|
||||
COMPLEX(*) C, INTEGER LDC ) ;
|
||||
SUBROUTINE: ZHEMM ( CHARACTER*1 SIDE,
|
||||
CHARACTER*1 UPLO, INTEGER M, INTEGER N,
|
||||
DOUBLE-COMPLEX ALPHA, DOUBLE-COMPLEX(*) A, INTEGER LDA,
|
||||
DOUBLE-COMPLEX(*) B, INTEGER LDB, DOUBLE-COMPLEX BETA,
|
||||
DOUBLE-COMPLEX(*) C, INTEGER LDC ) ;
|
||||
SUBROUTINE: ZHERK ( CHARACTER*1 UPLO,
|
||||
CHARACTER*1 TRANS, INTEGER N, INTEGER K,
|
||||
REAL ALPHA, DOUBLE-COMPLEX(*) A, INTEGER LDA,
|
||||
REAL BETA, DOUBLE-COMPLEX(*) C, INTEGER LDC ) ;
|
||||
SUBROUTINE: ZHER2K ( CHARACTER*1 UPLO,
|
||||
CHARACTER*1 TRANS, INTEGER N, INTEGER K,
|
||||
DOUBLE-COMPLEX ALPHA, DOUBLE-COMPLEX(*) A, INTEGER LDA,
|
||||
DOUBLE-COMPLEX(*) B, INTEGER LDB, REAL BETA,
|
||||
DOUBLE-COMPLEX(*) C, INTEGER LDC ) ;
|
|
@ -0,0 +1 @@
|
|||
Low-level bindings to the Basic Linear Algebra Subroutines (BLAS) library
|
|
@ -1,2 +1,3 @@
|
|||
math
|
||||
bindings
|
||||
fortran
|
|
@ -8,40 +8,40 @@ ARTICLE: "math.blas-summary" "Basic Linear Algebra Subroutines (BLAS) interface"
|
|||
{ $subsection "math.blas.vectors" }
|
||||
"Vector-matrix and matrix-matrix operations are available in the " { $vocab-link "math.blas.matrices" } " vocabulary:"
|
||||
{ $subsection "math.blas.matrices" }
|
||||
"The low-level BLAS C interface can be accessed directly through the " { $vocab-link "math.blas.cblas" } " vocabulary." ;
|
||||
"The low-level BLAS Fortran interface can be accessed directly through the " { $vocab-link "math.blas.ffi" } " vocabulary." ;
|
||||
|
||||
ARTICLE: "math.blas-types" "BLAS interface types"
|
||||
"BLAS vectors come in single- and double-precision, real and complex flavors:"
|
||||
{ $subsection float-blas-vector }
|
||||
{ $subsection double-blas-vector }
|
||||
{ $subsection float-complex-blas-vector }
|
||||
{ $subsection double-complex-blas-vector }
|
||||
{ $subsection complex-float-blas-vector }
|
||||
{ $subsection complex-double-blas-vector }
|
||||
"These vector types all follow the " { $link sequence } " protocol. In addition, there are corresponding types for matrix data:"
|
||||
{ $subsection float-blas-matrix }
|
||||
{ $subsection double-blas-matrix }
|
||||
{ $subsection float-complex-blas-matrix }
|
||||
{ $subsection double-complex-blas-matrix }
|
||||
{ $subsection complex-float-blas-matrix }
|
||||
{ $subsection complex-double-blas-matrix }
|
||||
"There are BOA constructors for all vector and matrix types, which provide the most flexibility in specifying memory layout:"
|
||||
{ $subsection <float-blas-vector> }
|
||||
{ $subsection <double-blas-vector> }
|
||||
{ $subsection <float-complex-blas-vector> }
|
||||
{ $subsection <double-complex-blas-vector> }
|
||||
{ $subsection <complex-float-blas-vector> }
|
||||
{ $subsection <complex-double-blas-vector> }
|
||||
{ $subsection <float-blas-matrix> }
|
||||
{ $subsection <double-blas-matrix> }
|
||||
{ $subsection <float-complex-blas-matrix> }
|
||||
{ $subsection <double-complex-blas-matrix> }
|
||||
{ $subsection <complex-float-blas-matrix> }
|
||||
{ $subsection <complex-double-blas-matrix> }
|
||||
"For the simple case of creating a dense, zero-filled vector or matrix, simple empty object constructors are provided:"
|
||||
{ $subsection <empty-vector> }
|
||||
{ $subsection <empty-matrix> }
|
||||
"BLAS vectors and matrices can also be constructed from other Factor sequences:"
|
||||
{ $subsection >float-blas-vector }
|
||||
{ $subsection >double-blas-vector }
|
||||
{ $subsection >float-complex-blas-vector }
|
||||
{ $subsection >double-complex-blas-vector }
|
||||
{ $subsection >complex-float-blas-vector }
|
||||
{ $subsection >complex-double-blas-vector }
|
||||
{ $subsection >float-blas-matrix }
|
||||
{ $subsection >double-blas-matrix }
|
||||
{ $subsection >float-complex-blas-matrix }
|
||||
{ $subsection >double-complex-blas-matrix } ;
|
||||
{ $subsection >complex-float-blas-matrix }
|
||||
{ $subsection >complex-double-blas-matrix } ;
|
||||
|
||||
ARTICLE: "math.blas.matrices" "BLAS interface matrix operations"
|
||||
"Transposing and slicing matrices:"
|
||||
|
@ -87,8 +87,8 @@ HELP: blas-matrix-base
|
|||
{ $list
|
||||
{ { $link float-blas-matrix } }
|
||||
{ { $link double-blas-matrix } }
|
||||
{ { $link float-complex-blas-matrix } }
|
||||
{ { $link double-complex-blas-matrix } }
|
||||
{ { $link complex-float-blas-matrix } }
|
||||
{ { $link complex-double-blas-matrix } }
|
||||
}
|
||||
"All of these subclasses share the same tuple layout:"
|
||||
{ $list
|
||||
|
@ -104,14 +104,14 @@ HELP: float-blas-matrix
|
|||
{ $class-description "A matrix of single-precision floating-point values. For details on the tuple layout, see " { $link blas-matrix-base } "." } ;
|
||||
HELP: double-blas-matrix
|
||||
{ $class-description "A matrix of double-precision floating-point values. For details on the tuple layout, see " { $link blas-matrix-base } "." } ;
|
||||
HELP: float-complex-blas-matrix
|
||||
HELP: complex-float-blas-matrix
|
||||
{ $class-description "A matrix of single-precision floating-point complex values. Complex values are stored in memory as two consecutive float values, real part then imaginary part. For details on the tuple layout, see " { $link blas-matrix-base } "." } ;
|
||||
HELP: double-complex-blas-matrix
|
||||
HELP: complex-double-blas-matrix
|
||||
{ $class-description "A matrix of double-precision floating-point complex values. Complex values are stored in memory as two consecutive float values, real part then imaginary part. For details on the tuple layout, see " { $link blas-matrix-base } "." } ;
|
||||
|
||||
{
|
||||
float-blas-matrix double-blas-matrix float-complex-blas-matrix double-complex-blas-matrix
|
||||
float-blas-vector double-blas-vector float-complex-blas-vector double-complex-blas-vector
|
||||
float-blas-matrix double-blas-matrix complex-float-blas-matrix complex-double-blas-matrix
|
||||
float-blas-vector double-blas-vector complex-float-blas-vector complex-double-blas-vector
|
||||
} related-words
|
||||
|
||||
HELP: Mwidth
|
||||
|
@ -272,7 +272,7 @@ HELP: cmatrix{
|
|||
{ 0.0 0.0 -1.0 3.0 }
|
||||
{ 0.0 0.0 0.0 C{ 0.0 -1.0 } }
|
||||
} "> }
|
||||
{ $description "Construct a literal " { $link float-complex-blas-matrix } ". Note that although BLAS matrices are stored in column-major order, the literal is specified in row-major order." } ;
|
||||
{ $description "Construct a literal " { $link complex-float-blas-matrix } ". Note that although BLAS matrices are stored in column-major order, the literal is specified in row-major order." } ;
|
||||
|
||||
HELP: zmatrix{
|
||||
{ $syntax <" zmatrix{
|
||||
|
@ -281,7 +281,7 @@ HELP: zmatrix{
|
|||
{ 0.0 0.0 -1.0 3.0 }
|
||||
{ 0.0 0.0 0.0 C{ 0.0 -1.0 } }
|
||||
} "> }
|
||||
{ $description "Construct a literal " { $link double-complex-blas-matrix } ". Note that although BLAS matrices are stored in column-major order, the literal is specified in row-major order." } ;
|
||||
{ $description "Construct a literal " { $link complex-double-blas-matrix } ". Note that although BLAS matrices are stored in column-major order, the literal is specified in row-major order." } ;
|
||||
|
||||
{
|
||||
POSTPONE: smatrix{ POSTPONE: dmatrix{
|
||||
|
|
|
@ -1,11 +1,13 @@
|
|||
USING: accessors alien alien.c-types arrays byte-arrays combinators
|
||||
combinators.short-circuit fry kernel locals macros
|
||||
math math.blas.cblas math.blas.vectors math.blas.vectors.private
|
||||
math math.blas.ffi math.blas.vectors math.blas.vectors.private
|
||||
math.complex math.functions math.order functors words
|
||||
sequences sequences.merged sequences.private shuffle
|
||||
specialized-arrays.direct.float specialized-arrays.direct.double
|
||||
specialized-arrays.float specialized-arrays.double
|
||||
parser prettyprint.backend prettyprint.custom ;
|
||||
specialized-arrays.direct.complex-float specialized-arrays.direct.complex-double
|
||||
specialized-arrays.complex-float specialized-arrays.complex-double
|
||||
parser prettyprint.backend prettyprint.custom ascii ;
|
||||
IN: math.blas.matrices
|
||||
|
||||
TUPLE: blas-matrix-base underlying ld rows cols transpose ;
|
||||
|
@ -25,7 +27,7 @@ GENERIC: n*M.M+n*M! ( alpha A B beta C -- C=alpha*A.B+beta*C )
|
|||
<PRIVATE
|
||||
|
||||
: (blas-transpose) ( matrix -- integer )
|
||||
transpose>> [ CblasTrans ] [ CblasNoTrans ] if ;
|
||||
transpose>> [ "T" ] [ "N" ] if ;
|
||||
|
||||
GENERIC: (blas-matrix-like) ( data ld rows cols transpose exemplar -- matrix )
|
||||
|
||||
|
@ -38,73 +40,70 @@ GENERIC: (blas-matrix-like) ( data ld rows cols transpose exemplar -- matrix )
|
|||
unless ;
|
||||
|
||||
:: (prepare-gemv)
|
||||
( alpha A x beta y >c-arg -- order A-trans m n alpha A-data A-ld x-data x-inc beta y-data y-inc
|
||||
y )
|
||||
( alpha A x beta y -- A-trans m n alpha A-data A-ld x-data x-inc beta y-data y-inc
|
||||
y )
|
||||
A x y (validate-gemv)
|
||||
CblasColMajor
|
||||
A (blas-transpose)
|
||||
A rows>>
|
||||
A cols>>
|
||||
alpha >c-arg call
|
||||
A underlying>>
|
||||
alpha
|
||||
A
|
||||
A ld>>
|
||||
x underlying>>
|
||||
x
|
||||
x inc>>
|
||||
beta >c-arg call
|
||||
y underlying>>
|
||||
beta
|
||||
y
|
||||
y inc>>
|
||||
y ; inline
|
||||
|
||||
: (validate-ger) ( x y A -- )
|
||||
{
|
||||
[ nip [ length>> ] [ Mheight ] bi* = ]
|
||||
[ nipd [ length>> ] [ Mwidth ] bi* = ]
|
||||
[ [ length>> ] [ drop ] [ Mheight ] tri* = ]
|
||||
[ [ drop ] [ length>> ] [ Mwidth ] tri* = ]
|
||||
} 3&&
|
||||
[ "Mismatched vertices and matrix in vector outer product" throw ]
|
||||
unless ;
|
||||
|
||||
:: (prepare-ger)
|
||||
( alpha x y A >c-arg -- order m n alpha x-data x-inc y-data y-inc A-data A-ld
|
||||
A )
|
||||
( alpha x y A -- m n alpha x-data x-inc y-data y-inc A-data A-ld
|
||||
A )
|
||||
x y A (validate-ger)
|
||||
CblasColMajor
|
||||
A rows>>
|
||||
A cols>>
|
||||
alpha >c-arg call
|
||||
x underlying>>
|
||||
alpha
|
||||
x
|
||||
x inc>>
|
||||
y underlying>>
|
||||
y
|
||||
y inc>>
|
||||
A underlying>>
|
||||
A
|
||||
A ld>>
|
||||
A f >>transpose ; inline
|
||||
|
||||
: (validate-gemm) ( A B C -- )
|
||||
{
|
||||
[ drop [ Mwidth ] [ Mheight ] bi* = ]
|
||||
[ nip [ Mheight ] bi@ = ]
|
||||
[ nipd [ Mwidth ] bi@ = ]
|
||||
[ [ Mwidth ] [ Mheight ] [ drop ] tri* = ]
|
||||
[ [ Mheight ] [ drop ] [ Mheight ] tri* = ]
|
||||
[ [ drop ] [ Mwidth ] [ Mwidth ] tri* = ]
|
||||
} 3&&
|
||||
[ "Mismatched matrices in matrix multiplication" throw ]
|
||||
unless ;
|
||||
|
||||
:: (prepare-gemm)
|
||||
( alpha A B beta C >c-arg -- order A-trans B-trans m n k alpha A-data A-ld B-data B-ld beta C-data C-ld
|
||||
C )
|
||||
( alpha A B beta C -- A-trans B-trans m n k alpha A-data A-ld B-data B-ld beta C-data C-ld
|
||||
C )
|
||||
A B C (validate-gemm)
|
||||
CblasColMajor
|
||||
A (blas-transpose)
|
||||
B (blas-transpose)
|
||||
C rows>>
|
||||
C cols>>
|
||||
A Mwidth
|
||||
alpha >c-arg call
|
||||
A underlying>>
|
||||
alpha
|
||||
A
|
||||
A ld>>
|
||||
B underlying>>
|
||||
B
|
||||
B ld>>
|
||||
beta >c-arg call
|
||||
C underlying>>
|
||||
beta
|
||||
C
|
||||
C ld>>
|
||||
C f >>transpose ; inline
|
||||
|
||||
|
@ -250,16 +249,18 @@ FUNCTOR: (define-blas-matrix) ( TYPE T U C -- )
|
|||
VECTOR IS ${TYPE}-blas-vector
|
||||
<VECTOR> IS <${TYPE}-blas-vector>
|
||||
>ARRAY IS >${TYPE}-array
|
||||
TYPE>ARG IS ${TYPE}>arg
|
||||
XGEMV IS cblas_${T}gemv
|
||||
XGEMM IS cblas_${T}gemm
|
||||
XGERU IS cblas_${T}ger${U}
|
||||
XGERC IS cblas_${T}ger${C}
|
||||
XGEMV IS ${T}GEMV
|
||||
XGEMM IS ${T}GEMM
|
||||
XGERU IS ${T}GER${U}
|
||||
XGERC IS ${T}GER${C}
|
||||
|
||||
MATRIX DEFINES-CLASS ${TYPE}-blas-matrix
|
||||
<MATRIX> DEFINES <${TYPE}-blas-matrix>
|
||||
>MATRIX DEFINES >${TYPE}-blas-matrix
|
||||
XMATRIX{ DEFINES ${T}matrix{
|
||||
|
||||
t [ T >lower ]
|
||||
|
||||
XMATRIX{ DEFINES ${t}matrix{
|
||||
|
||||
WHERE
|
||||
|
||||
|
@ -277,21 +278,16 @@ M: MATRIX (blas-vector-like)
|
|||
drop <VECTOR> ;
|
||||
|
||||
: >MATRIX ( arrays -- matrix )
|
||||
[ >ARRAY underlying>> ] (>matrix)
|
||||
<MATRIX> ;
|
||||
[ >ARRAY underlying>> ] (>matrix) <MATRIX> ;
|
||||
|
||||
M: VECTOR n*M.V+n*V!
|
||||
[ TYPE>ARG ] (prepare-gemv)
|
||||
[ XGEMV ] dip ;
|
||||
(prepare-gemv) [ XGEMV ] dip ;
|
||||
M: MATRIX n*M.M+n*M!
|
||||
[ TYPE>ARG ] (prepare-gemm)
|
||||
[ XGEMM ] dip ;
|
||||
(prepare-gemm) [ XGEMM ] dip ;
|
||||
M: MATRIX n*V(*)V+M!
|
||||
[ TYPE>ARG ] (prepare-ger)
|
||||
[ XGERU ] dip ;
|
||||
(prepare-ger) [ XGERU ] dip ;
|
||||
M: MATRIX n*V(*)Vconj+M!
|
||||
[ TYPE>ARG ] (prepare-ger)
|
||||
[ XGERC ] dip ;
|
||||
(prepare-ger) [ XGERC ] dip ;
|
||||
|
||||
: XMATRIX{ \ } [ >MATRIX ] parse-literal ; parsing
|
||||
|
||||
|
@ -304,12 +300,12 @@ M: MATRIX pprint-delims
|
|||
: define-real-blas-matrix ( TYPE T -- )
|
||||
"" "" (define-blas-matrix) ;
|
||||
: define-complex-blas-matrix ( TYPE T -- )
|
||||
"u" "c" (define-blas-matrix) ;
|
||||
"U" "C" (define-blas-matrix) ;
|
||||
|
||||
"float" "s" define-real-blas-matrix
|
||||
"double" "d" define-real-blas-matrix
|
||||
"float-complex" "c" define-complex-blas-matrix
|
||||
"double-complex" "z" define-complex-blas-matrix
|
||||
"float" "S" define-real-blas-matrix
|
||||
"double" "D" define-real-blas-matrix
|
||||
"complex-float" "C" define-complex-blas-matrix
|
||||
"complex-double" "Z" define-complex-blas-matrix
|
||||
|
||||
>>
|
||||
|
||||
|
|
|
@ -37,8 +37,8 @@ HELP: blas-vector-base
|
|||
{ $list
|
||||
{ { $link float-blas-vector } }
|
||||
{ { $link double-blas-vector } }
|
||||
{ { $link float-complex-blas-vector } }
|
||||
{ { $link double-complex-blas-vector } }
|
||||
{ { $link complex-float-blas-vector } }
|
||||
{ { $link complex-double-blas-vector } }
|
||||
}
|
||||
"All of these subclasses share the same tuple layout:"
|
||||
{ $list
|
||||
|
@ -51,10 +51,10 @@ HELP: float-blas-vector
|
|||
{ $class-description "A vector of single-precision floating-point values. For details on the tuple layout, see " { $link blas-vector-base } "." } ;
|
||||
HELP: double-blas-vector
|
||||
{ $class-description "A vector of double-precision floating-point values. For details on the tuple layout, see " { $link blas-vector-base } "." } ;
|
||||
HELP: float-complex-blas-vector
|
||||
{ $class-description "A vector of single-precision floating-point complex values. Complex values are stored in memory as two consecutive float values, real part then imaginary part. For details on the tuple layout, see " { $link blas-vector-base } "." } ;
|
||||
HELP: double-complex-blas-vector
|
||||
{ $class-description "A vector of single-precision floating-point complex values. Complex values are stored in memory as two consecutive float values, real part then imaginary part. For details on the tuple layout, see " { $link blas-vector-base } "." } ;
|
||||
HELP: complex-float-blas-vector
|
||||
{ $class-description "A vector of single-precision floating-point complex values. For details on the tuple layout, see " { $link blas-vector-base } "." } ;
|
||||
HELP: complex-double-blas-vector
|
||||
{ $class-description "A vector of double-precision floating-point complex values. For details on the tuple layout, see " { $link blas-vector-base } "." } ;
|
||||
|
||||
HELP: n*V+V!
|
||||
{ $values { "alpha" number } { "x" blas-vector-base } { "y" blas-vector-base } { "y=alpha*x+y" blas-vector-base } }
|
||||
|
@ -145,11 +145,11 @@ HELP: dvector{
|
|||
|
||||
HELP: cvector{
|
||||
{ $syntax "cvector{ 1.0 -2.0 C{ 3.0 -1.0 } }" }
|
||||
{ $description "Construct a literal " { $link float-complex-blas-vector } "." } ;
|
||||
{ $description "Construct a literal " { $link complex-float-blas-vector } "." } ;
|
||||
|
||||
HELP: zvector{
|
||||
{ $syntax "dvector{ 1.0 -2.0 C{ 3.0 -1.0 } }" }
|
||||
{ $description "Construct a literal " { $link double-complex-blas-vector } "." } ;
|
||||
{ $description "Construct a literal " { $link complex-double-blas-vector } "." } ;
|
||||
|
||||
{
|
||||
POSTPONE: svector{ POSTPONE: dvector{
|
||||
|
|
|
@ -1,10 +1,12 @@
|
|||
USING: accessors alien alien.c-types arrays byte-arrays combinators
|
||||
combinators.short-circuit fry kernel math math.blas.cblas
|
||||
math.complex math.functions math.order sequences.complex
|
||||
sequences.complex-components sequences sequences.private
|
||||
USING: accessors alien alien.c-types arrays ascii byte-arrays combinators
|
||||
combinators.short-circuit fry kernel math math.blas.ffi
|
||||
math.complex math.functions math.order sequences sequences.private
|
||||
functors words locals parser prettyprint.backend prettyprint.custom
|
||||
specialized-arrays.float specialized-arrays.double
|
||||
specialized-arrays.direct.float specialized-arrays.direct.double ;
|
||||
specialized-arrays.direct.float specialized-arrays.direct.double
|
||||
specialized-arrays.complex-float specialized-arrays.complex-double
|
||||
specialized-arrays.direct.complex-float
|
||||
specialized-arrays.direct.complex-double ;
|
||||
IN: math.blas.vectors
|
||||
|
||||
TUPLE: blas-vector-base underlying length inc ;
|
||||
|
@ -31,7 +33,7 @@ GENERIC: (blas-direct-array) ( blas-vector -- direct-array )
|
|||
: shorter-length ( v1 v2 -- length )
|
||||
[ length>> ] bi@ min ; inline
|
||||
: data-and-inc ( v -- data inc )
|
||||
[ underlying>> ] [ inc>> ] bi ; inline
|
||||
[ ] [ inc>> ] bi ; inline
|
||||
: datas-and-incs ( v1 v2 -- v1-data v1-inc v2-data v2-inc )
|
||||
[ data-and-inc ] bi@ ; inline
|
||||
|
||||
|
@ -130,15 +132,20 @@ FUNCTOR: (define-blas-vector) ( TYPE T -- )
|
|||
|
||||
<DIRECT-ARRAY> IS <direct-${TYPE}-array>
|
||||
>ARRAY IS >${TYPE}-array
|
||||
XCOPY IS cblas_${T}copy
|
||||
XSWAP IS cblas_${T}swap
|
||||
IXAMAX IS cblas_i${T}amax
|
||||
XCOPY IS ${T}COPY
|
||||
XSWAP IS ${T}SWAP
|
||||
IXAMAX IS I${T}AMAX
|
||||
|
||||
VECTOR DEFINES-CLASS ${TYPE}-blas-vector
|
||||
<VECTOR> DEFINES <${TYPE}-blas-vector>
|
||||
>VECTOR DEFINES >${TYPE}-blas-vector
|
||||
|
||||
XVECTOR{ DEFINES ${T}vector{
|
||||
t [ T >lower ]
|
||||
|
||||
XVECTOR{ DEFINES ${t}vector{
|
||||
|
||||
XAXPY IS ${T}AXPY
|
||||
XSCAL IS ${T}SCAL
|
||||
|
||||
WHERE
|
||||
|
||||
|
@ -157,7 +164,7 @@ M: VECTOR element-type
|
|||
M: VECTOR Vswap
|
||||
(prepare-swap) [ XSWAP ] 2dip ;
|
||||
M: VECTOR Viamax
|
||||
(prepare-nrm2) IXAMAX ;
|
||||
(prepare-nrm2) IXAMAX 1- ;
|
||||
|
||||
M: VECTOR (blas-vector-like)
|
||||
drop <VECTOR> ;
|
||||
|
@ -167,6 +174,11 @@ M: VECTOR (blas-direct-array)
|
|||
[ [ length>> ] [ inc>> ] bi * ] bi
|
||||
<DIRECT-ARRAY> ;
|
||||
|
||||
M: VECTOR n*V+V!
|
||||
(prepare-axpy) [ XAXPY ] dip ;
|
||||
M: VECTOR n*V!
|
||||
(prepare-scal) [ XSCAL ] dip ;
|
||||
|
||||
: XVECTOR{ \ } [ >VECTOR ] parse-literal ; parsing
|
||||
|
||||
M: VECTOR pprint-delims
|
||||
|
@ -178,11 +190,9 @@ M: VECTOR pprint-delims
|
|||
FUNCTOR: (define-real-blas-vector) ( TYPE T -- )
|
||||
|
||||
VECTOR IS ${TYPE}-blas-vector
|
||||
XDOT IS cblas_${T}dot
|
||||
XNRM2 IS cblas_${T}nrm2
|
||||
XASUM IS cblas_${T}asum
|
||||
XAXPY IS cblas_${T}axpy
|
||||
XSCAL IS cblas_${T}scal
|
||||
XDOT IS ${T}DOT
|
||||
XNRM2 IS ${T}NRM2
|
||||
XASUM IS ${T}ASUM
|
||||
|
||||
WHERE
|
||||
|
||||
|
@ -194,33 +204,6 @@ M: VECTOR Vnorm
|
|||
(prepare-nrm2) XNRM2 ;
|
||||
M: VECTOR Vasum
|
||||
(prepare-nrm2) XASUM ;
|
||||
M: VECTOR n*V+V!
|
||||
(prepare-axpy) [ XAXPY ] dip ;
|
||||
M: VECTOR n*V!
|
||||
(prepare-scal) [ XSCAL ] dip ;
|
||||
|
||||
;FUNCTOR
|
||||
|
||||
|
||||
FUNCTOR: (define-complex-helpers) ( TYPE -- )
|
||||
|
||||
<DIRECT-COMPLEX-ARRAY> DEFINES <direct-${TYPE}-complex-array>
|
||||
>COMPLEX-ARRAY DEFINES >${TYPE}-complex-array
|
||||
ARG>COMPLEX DEFINES arg>${TYPE}-complex
|
||||
COMPLEX>ARG DEFINES ${TYPE}-complex>arg
|
||||
<DIRECT-ARRAY> IS <direct-${TYPE}-array>
|
||||
>ARRAY IS >${TYPE}-array
|
||||
|
||||
WHERE
|
||||
|
||||
: <DIRECT-COMPLEX-ARRAY> ( alien len -- sequence )
|
||||
1 shift <DIRECT-ARRAY> <complex-sequence> ;
|
||||
: >COMPLEX-ARRAY ( sequence -- sequence )
|
||||
<complex-components> >ARRAY ;
|
||||
: COMPLEX>ARG ( complex -- alien )
|
||||
>rect 2array >ARRAY underlying>> ;
|
||||
: ARG>COMPLEX ( alien -- complex )
|
||||
2 <DIRECT-ARRAY> first2 rect> ;
|
||||
|
||||
;FUNCTOR
|
||||
|
||||
|
@ -228,35 +211,21 @@ WHERE
|
|||
FUNCTOR: (define-complex-blas-vector) ( TYPE C S -- )
|
||||
|
||||
VECTOR IS ${TYPE}-blas-vector
|
||||
XDOTU_SUB IS cblas_${C}dotu_sub
|
||||
XDOTC_SUB IS cblas_${C}dotc_sub
|
||||
XXNRM2 IS cblas_${S}${C}nrm2
|
||||
XXASUM IS cblas_${S}${C}asum
|
||||
XAXPY IS cblas_${C}axpy
|
||||
XSCAL IS cblas_${C}scal
|
||||
TYPE>ARG IS ${TYPE}>arg
|
||||
ARG>TYPE IS arg>${TYPE}
|
||||
XDOTU IS ${C}DOTU
|
||||
XDOTC IS ${C}DOTC
|
||||
XXNRM2 IS ${S}${C}NRM2
|
||||
XXASUM IS ${S}${C}ASUM
|
||||
|
||||
WHERE
|
||||
|
||||
M: VECTOR V.
|
||||
(prepare-dot) TYPE <c-object>
|
||||
[ XDOTU_SUB ] keep
|
||||
ARG>TYPE ;
|
||||
(prepare-dot) XDOTU ;
|
||||
M: VECTOR V.conj
|
||||
(prepare-dot) TYPE <c-object>
|
||||
[ XDOTC_SUB ] keep
|
||||
ARG>TYPE ;
|
||||
(prepare-dot) XDOTC ;
|
||||
M: VECTOR Vnorm
|
||||
(prepare-nrm2) XXNRM2 ;
|
||||
M: VECTOR Vasum
|
||||
(prepare-nrm2) XXASUM ;
|
||||
M: VECTOR n*V+V!
|
||||
[ TYPE>ARG ] 2dip
|
||||
(prepare-axpy) [ XAXPY ] dip ;
|
||||
M: VECTOR n*V!
|
||||
[ TYPE>ARG ] dip
|
||||
(prepare-scal) [ XSCAL ] dip ;
|
||||
|
||||
;FUNCTOR
|
||||
|
||||
|
@ -264,16 +233,14 @@ M: VECTOR n*V!
|
|||
: define-real-blas-vector ( TYPE T -- )
|
||||
[ (define-blas-vector) ]
|
||||
[ (define-real-blas-vector) ] 2bi ;
|
||||
:: define-complex-blas-vector ( TYPE C S -- )
|
||||
TYPE (define-complex-helpers)
|
||||
TYPE "-complex" append
|
||||
[ C (define-blas-vector) ]
|
||||
[ C S (define-complex-blas-vector) ] bi ;
|
||||
: define-complex-blas-vector ( TYPE C S -- )
|
||||
[ drop (define-blas-vector) ]
|
||||
[ (define-complex-blas-vector) ] 3bi ;
|
||||
|
||||
"float" "s" define-real-blas-vector
|
||||
"double" "d" define-real-blas-vector
|
||||
"float" "c" "s" define-complex-blas-vector
|
||||
"double" "z" "d" define-complex-blas-vector
|
||||
"float" "S" define-real-blas-vector
|
||||
"double" "D" define-real-blas-vector
|
||||
"complex-float" "C" "S" define-complex-blas-vector
|
||||
"complex-double" "Z" "D" define-complex-blas-vector
|
||||
|
||||
>>
|
||||
|
||||
|
|
|
@ -87,12 +87,12 @@ CONSTANT: packed-length-table
|
|||
{ CHAR: D 8 }
|
||||
}
|
||||
|
||||
PRIVATE>
|
||||
|
||||
MACRO: pack ( str -- quot )
|
||||
[ pack-table at '[ _ execute ] ] { } map-as
|
||||
'[ [ [ _ spread ] input<sequence ] B{ } append-outputs-as ] ;
|
||||
|
||||
PRIVATE>
|
||||
|
||||
: ch>packed-length ( ch -- n )
|
||||
packed-length-table at ; inline
|
||||
|
||||
|
@ -113,14 +113,14 @@ PRIVATE>
|
|||
: start/end ( seq -- seq1 seq2 )
|
||||
[ 0 [ + ] accumulate nip dup ] keep v+ ; inline
|
||||
|
||||
PRIVATE>
|
||||
|
||||
MACRO: unpack ( str -- quot )
|
||||
[ [ ch>packed-length ] { } map-as start/end ]
|
||||
[ [ unpack-table at '[ @ ] ] { } map-as ] bi
|
||||
[ '[ [ _ _ ] dip <slice> @ ] ] 3map
|
||||
'[ [ _ cleave ] output>array ] ;
|
||||
|
||||
PRIVATE>
|
||||
|
||||
: unpack-native ( seq str -- seq )
|
||||
'[ _ _ unpack ] with-native-endian ; inline
|
||||
|
||||
|
|
|
@ -1,3 +1,5 @@
|
|||
USING: shuffle tools.test ;
|
||||
|
||||
[ 1 2 3 4 ] [ 3 4 1 2 2swap ] unit-test
|
||||
|
||||
[ 4 2 3 ] [ 1 2 3 4 shuffle( a b c d -- d b c ) ] unit-test
|
||||
|
|
|
@ -1,9 +1,27 @@
|
|||
! Copyright (C) 2007 Chris Double, Doug Coleman.
|
||||
! See http://factorcode.org/license.txt for BSD license.
|
||||
USING: kernel generalizations ;
|
||||
|
||||
USING: accessors assocs combinators effects.parser generalizations
|
||||
hashtables kernel locals locals.backend macros make math
|
||||
parser sequences ;
|
||||
IN: shuffle
|
||||
|
||||
<PRIVATE
|
||||
|
||||
: >index-assoc ( sequence -- assoc )
|
||||
dup length zip >hashtable ;
|
||||
|
||||
PRIVATE>
|
||||
|
||||
MACRO: shuffle-effect ( effect -- )
|
||||
[ out>> ] [ in>> >index-assoc ] bi
|
||||
[
|
||||
[ nip assoc-size , \ narray , ]
|
||||
[ [ at \ swap \ nth [ ] 3sequence ] curry map , \ cleave , ] 2bi
|
||||
] [ ] make ;
|
||||
|
||||
: shuffle(
|
||||
")" parse-effect parsed \ shuffle-effect parsed ; parsing
|
||||
|
||||
: 2swap ( x y z t -- z t x y ) 2 2 mnswap ; inline
|
||||
|
||||
: 4dup ( a b c d -- a b c d a b c d ) 4 ndup ; inline
|
||||
|
|
|
@ -0,0 +1,13 @@
|
|||
USING: kernel sequences specialized-arrays.complex-double tools.test ;
|
||||
IN: specialized-arrays.complex-double.tests
|
||||
|
||||
[ C{ 3.0 2.0 } ]
|
||||
[ complex-double-array{ 1.0 C{ 3.0 2.0 } 5.0 } second ] unit-test
|
||||
|
||||
[ C{ 1.0 0.0 } ]
|
||||
[ complex-double-array{ 1.0 C{ 3.0 2.0 } 5.0 } first ] unit-test
|
||||
|
||||
[ complex-double-array{ 1.0 C{ 6.0 -7.0 } 5.0 } ] [
|
||||
complex-double-array{ 1.0 C{ 3.0 2.0 } 5.0 }
|
||||
dup [ C{ 6.0 -7.0 } 1 ] dip set-nth
|
||||
] unit-test
|
|
@ -0,0 +1,4 @@
|
|||
USE: specialized-arrays.functor
|
||||
IN: specialized-arrays.complex-double
|
||||
|
||||
<< "complex-double" define-array >>
|
|
@ -0,0 +1,4 @@
|
|||
USE: specialized-arrays.functor
|
||||
IN: specialized-arrays.complex-float
|
||||
|
||||
<< "complex-float" define-array >>
|
|
@ -0,0 +1,4 @@
|
|||
USING: specialized-arrays.complex-double specialized-arrays.direct.functor ;
|
||||
IN: specialized-arrays.direct.complex-double
|
||||
|
||||
<< "complex-double" define-direct-array >>
|
|
@ -0,0 +1,4 @@
|
|||
USING: specialized-arrays.complex-float specialized-arrays.direct.functor ;
|
||||
IN: specialized-arrays.direct.complex-float
|
||||
|
||||
<< "complex-float" define-direct-array >>
|
|
@ -14,7 +14,7 @@ A' IS ${T}-array
|
|||
A DEFINES-CLASS direct-${T}-array
|
||||
<A> DEFINES <${A}>
|
||||
|
||||
NTH [ T dup c-getter array-accessor ]
|
||||
NTH [ T dup c-type-getter-boxer array-accessor ]
|
||||
SET-NTH [ T dup c-setter array-accessor ]
|
||||
|
||||
WHERE
|
||||
|
|
|
@ -22,7 +22,7 @@ A DEFINES-CLASS ${T}-array
|
|||
byte-array>A DEFINES byte-array>${A}
|
||||
A{ DEFINES ${A}{
|
||||
|
||||
NTH [ T dup c-getter array-accessor ]
|
||||
NTH [ T dup c-type-getter-boxer array-accessor ]
|
||||
SET-NTH [ T dup c-setter array-accessor ]
|
||||
|
||||
WHERE
|
||||
|
|
|
@ -11,7 +11,7 @@ tools.deploy.config.editor bootstrap.image io.encodings.utf8
|
|||
destructors accessors ;
|
||||
IN: tools.deploy.backend
|
||||
|
||||
: copy-vm ( executable bundle-name extension -- vm )
|
||||
: copy-vm ( executable bundle-name -- vm )
|
||||
[ prepend-path ] dip append vm over copy-file ;
|
||||
|
||||
: copy-fonts ( name dir -- )
|
||||
|
|
|
@ -49,7 +49,7 @@ IN: tools.deploy.macosx
|
|||
tri
|
||||
]
|
||||
[ create-app-plist ]
|
||||
[ "Contents/MacOS/" append-path "" copy-vm ] 2tri
|
||||
[ "Contents/MacOS/" append-path copy-vm ] 2tri
|
||||
dup OCT: 755 set-file-permissions ;
|
||||
|
||||
: deploy.app-image ( vocab bundle-name -- str )
|
||||
|
|
|
@ -8,7 +8,7 @@ IN: tools.deploy.unix
|
|||
|
||||
: create-app-dir ( vocab bundle-name -- vm )
|
||||
dup "" copy-fonts
|
||||
"" copy-vm
|
||||
copy-vm
|
||||
dup OCT: 755 set-file-permissions ;
|
||||
|
||||
: bundle-name ( -- str )
|
||||
|
|
|
@ -1,9 +1,9 @@
|
|||
! Copyright (C) 2007, 2008 Slava Pestov.
|
||||
! Copyright (C) 2007, 2009 Slava Pestov.
|
||||
! See http://factorcode.org/license.txt for BSD license.
|
||||
USING: io io.files io.directories kernel namespaces sequences system
|
||||
tools.deploy.backend tools.deploy.config
|
||||
tools.deploy.config.editor assocs hashtables prettyprint
|
||||
combinators windows.shell32 windows.user32 ;
|
||||
USING: io io.files io.pathnames io.directories kernel namespaces
|
||||
sequences locals system splitting tools.deploy.backend
|
||||
tools.deploy.config tools.deploy.config.editor assocs hashtables
|
||||
prettyprint combinators windows.shell32 windows.user32 ;
|
||||
IN: tools.deploy.windows
|
||||
|
||||
: copy-dll ( bundle-name -- )
|
||||
|
@ -15,13 +15,18 @@ IN: tools.deploy.windows
|
|||
"resource:zlib1.dll"
|
||||
} swap copy-files-into ;
|
||||
|
||||
:: copy-vm ( executable bundle-name extension -- vm )
|
||||
vm "." split1-last drop extension append
|
||||
bundle-name executable ".exe" append append-path
|
||||
[ copy-file ] keep ;
|
||||
|
||||
: create-exe-dir ( vocab bundle-name -- vm )
|
||||
dup copy-dll
|
||||
deploy-ui? get [
|
||||
dup copy-freetype
|
||||
dup "" copy-fonts
|
||||
] when
|
||||
".exe" copy-vm ;
|
||||
[ copy-freetype ]
|
||||
[ "" copy-fonts ]
|
||||
[ ".exe" copy-vm ] tri
|
||||
] [ ".com" copy-vm ] if ;
|
||||
|
||||
M: winnt deploy*
|
||||
"resource:" [
|
||||
|
|
|
@ -126,11 +126,11 @@ TAG: int xml>item children>number ;
|
|||
TAG: double xml>item children>number ;
|
||||
|
||||
TAG: boolean xml>item
|
||||
dup children>string {
|
||||
{ [ dup "1" = ] [ 2drop t ] }
|
||||
{ [ "0" = ] [ drop f ] }
|
||||
children>string {
|
||||
{ "1" [ t ] }
|
||||
{ "0" [ f ] }
|
||||
[ "Bad boolean" server-error ]
|
||||
} cond ;
|
||||
} case ;
|
||||
|
||||
: unstruct-member ( tag -- )
|
||||
children-tags first2
|
||||
|
|
|
@ -151,6 +151,7 @@ M: class initial-value* no-initial-value ;
|
|||
{ [ array bootstrap-word over class<= ] [ { } ] }
|
||||
{ [ byte-array bootstrap-word over class<= ] [ B{ } ] }
|
||||
{ [ simple-alien bootstrap-word over class<= ] [ <bad-alien> ] }
|
||||
{ [ quotation bootstrap-word over class<= ] [ [ ] ] }
|
||||
[ dup initial-value* ]
|
||||
} cond nip ;
|
||||
|
||||
|
|
|
@ -1,4 +1,4 @@
|
|||
! Copyright (C) 2009 Your name.
|
||||
! Copyright (C) 2009 Doug Coleman.
|
||||
! See http://factorcode.org/license.txt for BSD license.
|
||||
USING: tools.test graphics.tiff ;
|
||||
IN: graphics.tiff.tests
|
||||
|
@ -6,4 +6,6 @@ IN: graphics.tiff.tests
|
|||
: tiff-test-path ( -- path )
|
||||
"resource:extra/graphics/tiff/rgb.tiff" ;
|
||||
|
||||
: tiff-test-path2 ( -- path )
|
||||
"resource:extra/graphics/tiff/octagon.tiff" ;
|
||||
|
||||
|
|
|
@ -2,142 +2,123 @@
|
|||
! See http://factorcode.org/license.txt for BSD license.
|
||||
USING: accessors combinators io io.encodings.binary io.files
|
||||
kernel pack endian tools.hexdump constructors sequences arrays
|
||||
sorting.slots math.order math.parser prettyprint classes ;
|
||||
sorting.slots math.order math.parser prettyprint classes
|
||||
io.binary assocs math math.bitwise byte-arrays grouping ;
|
||||
IN: graphics.tiff
|
||||
|
||||
TUPLE: tiff
|
||||
endianness
|
||||
the-answer
|
||||
ifd-offset
|
||||
ifds ;
|
||||
TUPLE: tiff endianness the-answer ifd-offset ifds ;
|
||||
|
||||
CONSTRUCTOR: tiff ( -- tiff )
|
||||
V{ } clone >>ifds ;
|
||||
|
||||
TUPLE: ifd count ifd-entries next processed-tags strips ;
|
||||
|
||||
TUPLE: ifd count ifd-entries next
|
||||
processed-tags strips buffer ;
|
||||
CONSTRUCTOR: ifd ( count ifd-entries next -- ifd ) ;
|
||||
|
||||
TUPLE: ifd-entry tag type count offset ;
|
||||
|
||||
CONSTRUCTOR: ifd-entry ( tag type count offset -- ifd-entry ) ;
|
||||
|
||||
|
||||
TUPLE: photometric-interpretation color ;
|
||||
|
||||
CONSTRUCTOR: photometric-interpretation ( color -- object ) ;
|
||||
|
||||
SINGLETONS: white-is-zero black-is-zero rgb palette-color ;
|
||||
TUPLE: ifd-entry tag type count offset/value ;
|
||||
CONSTRUCTOR: ifd-entry ( tag type count offset/value -- ifd-entry ) ;
|
||||
|
||||
SINGLETONS: photometric-interpretation
|
||||
photometric-interpretation-white-is-zero
|
||||
photometric-interpretation-black-is-zero
|
||||
photometric-interpretation-rgb
|
||||
photometric-interpretation-palette-color ;
|
||||
ERROR: bad-photometric-interpretation n ;
|
||||
|
||||
: lookup-photometric-interpretation ( n -- singleton )
|
||||
{
|
||||
{ 0 [ white-is-zero ] }
|
||||
{ 1 [ black-is-zero ] }
|
||||
{ 2 [ rgb ] }
|
||||
{ 3 [ palette-color ] }
|
||||
{ 0 [ photometric-interpretation-white-is-zero ] }
|
||||
{ 1 [ photometric-interpretation-black-is-zero ] }
|
||||
{ 2 [ photometric-interpretation-rgb ] }
|
||||
{ 3 [ photometric-interpretation-palette-color ] }
|
||||
[ bad-photometric-interpretation ]
|
||||
} case <photometric-interpretation> ;
|
||||
|
||||
|
||||
TUPLE: compression method ;
|
||||
|
||||
CONSTRUCTOR: compression ( method -- object ) ;
|
||||
|
||||
SINGLETONS: no-compression CCITT-2 pack-bits lzw ;
|
||||
} case ;
|
||||
|
||||
SINGLETONS: compression
|
||||
compression-none
|
||||
compression-CCITT-2
|
||||
compression-lzw
|
||||
compression-pack-bits ;
|
||||
ERROR: bad-compression n ;
|
||||
|
||||
: lookup-compression ( n -- compression )
|
||||
{
|
||||
{ 1 [ no-compression ] }
|
||||
{ 2 [ CCITT-2 ] }
|
||||
{ 5 [ lzw ] }
|
||||
{ 32773 [ pack-bits ] }
|
||||
{ 1 [ compression-none ] }
|
||||
{ 2 [ compression-CCITT-2 ] }
|
||||
{ 5 [ compression-lzw ] }
|
||||
{ 32773 [ compression-pack-bits ] }
|
||||
[ bad-compression ]
|
||||
} case <compression> ;
|
||||
|
||||
TUPLE: image-length n ;
|
||||
CONSTRUCTOR: image-length ( n -- object ) ;
|
||||
|
||||
TUPLE: image-width n ;
|
||||
CONSTRUCTOR: image-width ( n -- object ) ;
|
||||
|
||||
TUPLE: x-resolution n ;
|
||||
CONSTRUCTOR: x-resolution ( n -- object ) ;
|
||||
|
||||
TUPLE: y-resolution n ;
|
||||
CONSTRUCTOR: y-resolution ( n -- object ) ;
|
||||
|
||||
TUPLE: rows-per-strip n ;
|
||||
CONSTRUCTOR: rows-per-strip ( n -- object ) ;
|
||||
|
||||
TUPLE: strip-offsets n ;
|
||||
CONSTRUCTOR: strip-offsets ( n -- object ) ;
|
||||
|
||||
TUPLE: strip-byte-counts n ;
|
||||
CONSTRUCTOR: strip-byte-counts ( n -- object ) ;
|
||||
|
||||
TUPLE: bits-per-sample n ;
|
||||
CONSTRUCTOR: bits-per-sample ( n -- object ) ;
|
||||
|
||||
TUPLE: samples-per-pixel n ;
|
||||
CONSTRUCTOR: samples-per-pixel ( n -- object ) ;
|
||||
|
||||
SINGLETONS: no-resolution-unit
|
||||
inch-resolution-unit
|
||||
centimeter-resolution-unit ;
|
||||
|
||||
TUPLE: resolution-unit type ;
|
||||
CONSTRUCTOR: resolution-unit ( type -- object ) ;
|
||||
} case ;
|
||||
|
||||
SINGLETONS: resolution-unit
|
||||
resolution-unit-none
|
||||
resolution-unit-inch
|
||||
resolution-unit-centimeter ;
|
||||
ERROR: bad-resolution-unit n ;
|
||||
|
||||
: lookup-resolution-unit ( n -- object )
|
||||
{
|
||||
{ 1 [ no-resolution-unit ] }
|
||||
{ 2 [ inch-resolution-unit ] }
|
||||
{ 3 [ centimeter-resolution-unit ] }
|
||||
{ 1 [ resolution-unit-none ] }
|
||||
{ 2 [ resolution-unit-inch ] }
|
||||
{ 3 [ resolution-unit-centimeter ] }
|
||||
[ bad-resolution-unit ]
|
||||
} case <resolution-unit> ;
|
||||
|
||||
|
||||
TUPLE: predictor type ;
|
||||
CONSTRUCTOR: predictor ( type -- object ) ;
|
||||
|
||||
SINGLETONS: no-predictor horizontal-differencing-predictor ;
|
||||
} case ;
|
||||
|
||||
SINGLETONS: predictor
|
||||
predictor-none
|
||||
predictor-horizontal-differencing ;
|
||||
ERROR: bad-predictor n ;
|
||||
|
||||
: lookup-predictor ( n -- object )
|
||||
{
|
||||
{ 1 [ no-predictor ] }
|
||||
{ 2 [ horizontal-differencing-predictor ] }
|
||||
{ 1 [ predictor-none ] }
|
||||
{ 2 [ predictor-horizontal-differencing ] }
|
||||
[ bad-predictor ]
|
||||
} case <predictor> ;
|
||||
|
||||
|
||||
TUPLE: planar-configuration type ;
|
||||
CONSTRUCTOR: planar-configuration ( type -- object ) ;
|
||||
|
||||
SINGLETONS: chunky planar ;
|
||||
} case ;
|
||||
|
||||
SINGLETONS: planar-configuration
|
||||
planar-configuration-chunky
|
||||
planar-configuration-planar ;
|
||||
ERROR: bad-planar-configuration n ;
|
||||
|
||||
: lookup-planar-configuration ( n -- object )
|
||||
{
|
||||
{ 1 [ no-predictor ] }
|
||||
{ 2 [ horizontal-differencing-predictor ] }
|
||||
[ bad-predictor ]
|
||||
} case <planar-configuration> ;
|
||||
{ 1 [ planar-configuration-chunky ] }
|
||||
{ 2 [ planar-configuration-planar ] }
|
||||
[ bad-planar-configuration ]
|
||||
} case ;
|
||||
|
||||
ERROR: bad-sample-format n ;
|
||||
SINGLETONS: sample-format
|
||||
sample-format-unsigned-integer
|
||||
sample-format-signed-integer
|
||||
sample-format-ieee-float
|
||||
sample-format-undefined-data ;
|
||||
: lookup-sample-format ( seq -- object )
|
||||
[
|
||||
{
|
||||
{ 1 [ sample-format-unsigned-integer ] }
|
||||
{ 2 [ sample-format-signed-integer ] }
|
||||
{ 3 [ sample-format-ieee-float ] }
|
||||
{ 4 [ sample-format-undefined-data ] }
|
||||
[ bad-sample-format ]
|
||||
} case
|
||||
] map ;
|
||||
|
||||
TUPLE: new-subfile-type n ;
|
||||
CONSTRUCTOR: new-subfile-type ( n -- object ) ;
|
||||
ERROR: bad-extra-samples n ;
|
||||
SINGLETONS: extra-samples
|
||||
extra-samples-unspecified-alpha-data
|
||||
extra-samples-associated-alpha-data
|
||||
extra-samples-unassociated-alpha-data ;
|
||||
: lookup-extra-samples ( seq -- object )
|
||||
{
|
||||
{ 0 [ extra-samples-unspecified-alpha-data ] }
|
||||
{ 1 [ extra-samples-associated-alpha-data ] }
|
||||
{ 2 [ extra-samples-unassociated-alpha-data ] }
|
||||
[ bad-extra-samples ]
|
||||
} case ;
|
||||
|
||||
SINGLETONS: image-length image-width x-resolution y-resolution
|
||||
rows-per-strip strip-offsets strip-byte-counts bits-per-sample
|
||||
samples-per-pixel new-subfile-type orientation
|
||||
unhandled-ifd-entry ;
|
||||
|
||||
ERROR: bad-tiff-magic bytes ;
|
||||
|
||||
: tiff-endianness ( byte-array -- ? )
|
||||
{
|
||||
{ B{ CHAR: M CHAR: M } [ big-endian ] }
|
||||
|
@ -145,9 +126,6 @@ ERROR: bad-tiff-magic bytes ;
|
|||
[ bad-tiff-magic ]
|
||||
} case ;
|
||||
|
||||
: with-tiff-endianness ( tiff quot -- tiff )
|
||||
[ dup endianness>> ] dip with-endianness ; inline
|
||||
|
||||
: read-header ( tiff -- tiff )
|
||||
2 read tiff-endianness [ >>endianness ] keep
|
||||
[
|
||||
|
@ -155,8 +133,7 @@ ERROR: bad-tiff-magic bytes ;
|
|||
4 read endian> >>ifd-offset
|
||||
] with-endianness ;
|
||||
|
||||
: push-ifd ( tiff ifd -- tiff )
|
||||
over ifds>> push ;
|
||||
: push-ifd ( tiff ifd -- tiff ) over ifds>> push ;
|
||||
|
||||
: read-ifd ( -- ifd )
|
||||
2 read endian>
|
||||
|
@ -165,63 +142,130 @@ ERROR: bad-tiff-magic bytes ;
|
|||
4 read endian> <ifd-entry> ;
|
||||
|
||||
: read-ifds ( tiff -- tiff )
|
||||
[
|
||||
dup ifd-offset>> seek-absolute seek-input
|
||||
2 read endian>
|
||||
dup [ read-ifd ] replicate
|
||||
4 read endian>
|
||||
[ <ifd> push-ifd ] [ 0 = [ read-ifds ] unless ] bi
|
||||
] with-tiff-endianness ;
|
||||
dup ifd-offset>> seek-absolute seek-input
|
||||
2 read endian>
|
||||
dup [ read-ifd ] replicate
|
||||
4 read endian>
|
||||
[ <ifd> push-ifd ] [ 0 = [ read-ifds ] unless ] bi ;
|
||||
|
||||
ERROR: no-tag class ;
|
||||
|
||||
: ?at ( key assoc -- value/key ? )
|
||||
dupd at* [ nip t ] [ drop f ] if ; inline
|
||||
|
||||
: find-tag ( idf class -- tag )
|
||||
swap processed-tags>> ?at [ no-tag ] unless ;
|
||||
|
||||
: read-strips ( ifd -- ifd )
|
||||
dup processed-tags>>
|
||||
[ [ strip-byte-counts instance? ] find nip n>> ]
|
||||
[ [ strip-offsets instance? ] find nip n>> ] bi
|
||||
[ seek-absolute seek-input read ] { } 2map-as >>strips ;
|
||||
dup
|
||||
[ strip-byte-counts find-tag ]
|
||||
[ strip-offsets find-tag ] bi
|
||||
2dup [ integer? ] both? [
|
||||
seek-absolute seek-input read 1array
|
||||
] [
|
||||
[ seek-absolute seek-input read ] { } 2map-as
|
||||
] if >>strips ;
|
||||
|
||||
! ERROR: unhandled-ifd-entry data n ;
|
||||
ERROR: unknown-ifd-type n ;
|
||||
|
||||
: unhandled-ifd-entry ;
|
||||
: bytes>bits ( n/byte-array -- n )
|
||||
dup byte-array? [ byte-array>bignum ] when ;
|
||||
|
||||
: value-length ( ifd-entry -- n )
|
||||
[ count>> ] [ type>> ] bi {
|
||||
{ 1 [ ] }
|
||||
{ 2 [ ] }
|
||||
{ 3 [ 2 * ] }
|
||||
{ 4 [ 4 * ] }
|
||||
{ 5 [ 8 * ] }
|
||||
{ 6 [ ] }
|
||||
{ 7 [ ] }
|
||||
{ 8 [ 2 * ] }
|
||||
{ 9 [ 4 * ] }
|
||||
{ 10 [ 8 * ] }
|
||||
{ 11 [ 4 * ] }
|
||||
{ 12 [ 8 * ] }
|
||||
[ unknown-ifd-type ]
|
||||
} case ;
|
||||
|
||||
ERROR: bad-small-ifd-type n ;
|
||||
|
||||
: adjust-offset/value ( ifd-entry -- obj )
|
||||
[ offset/value>> 4 >endian ] [ type>> ] bi
|
||||
{
|
||||
{ 1 [ 1 head endian> ] }
|
||||
{ 3 [ 2 head endian> ] }
|
||||
{ 4 [ endian> ] }
|
||||
{ 6 [ 1 head endian> 8 >signed ] }
|
||||
{ 8 [ 2 head endian> 16 >signed ] }
|
||||
{ 9 [ endian> 32 >signed ] }
|
||||
{ 11 [ endian> bits>float ] }
|
||||
[ bad-small-ifd-type ]
|
||||
} case ;
|
||||
|
||||
: offset-bytes>obj ( bytes type -- obj )
|
||||
{
|
||||
{ 1 [ ] } ! blank
|
||||
{ 2 [ ] } ! read c strings here
|
||||
{ 3 [ 2 <sliced-groups> [ endian> ] map ] }
|
||||
{ 4 [ 4 <sliced-groups> [ endian> ] map ] }
|
||||
{ 5 [ 8 <sliced-groups> [ "II" unpack first2 / ] map ] }
|
||||
{ 6 [ [ 8 >signed ] map ] }
|
||||
{ 7 [ ] } ! blank
|
||||
{ 8 [ 2 <sliced-groups> [ endian> 16 >signed ] map ] }
|
||||
{ 9 [ 4 <sliced-groups> [ endian> 32 >signed ] map ] }
|
||||
{ 10 [ 8 group [ "ii" unpack first2 / ] map ] }
|
||||
{ 11 [ 4 group [ "f" unpack ] map ] }
|
||||
{ 12 [ 8 group [ "d" unpack ] map ] }
|
||||
[ unknown-ifd-type ]
|
||||
} case ;
|
||||
|
||||
: ifd-entry-value ( ifd-entry -- n )
|
||||
dup count>> 1 = [
|
||||
offset>>
|
||||
dup value-length 4 <= [
|
||||
adjust-offset/value
|
||||
] [
|
||||
[ offset>> seek-absolute seek-input ] [ count>> read ] bi
|
||||
[ offset/value>> seek-absolute seek-input ]
|
||||
[ value-length read ]
|
||||
[ type>> ] tri offset-bytes>obj
|
||||
] if ;
|
||||
|
||||
: process-ifd-entry ( ifd-entry -- object )
|
||||
: process-ifd-entry ( ifd-entry -- value class )
|
||||
[ ifd-entry-value ] [ tag>> ] bi {
|
||||
{ 254 [ <new-subfile-type> ] }
|
||||
{ 256 [ <image-width> ] }
|
||||
{ 257 [ <image-length> ] }
|
||||
{ 258 [ <bits-per-sample> ] }
|
||||
{ 259 [ lookup-compression ] }
|
||||
{ 262 [ lookup-photometric-interpretation ] }
|
||||
{ 273 [ <strip-offsets> ] }
|
||||
{ 277 [ <samples-per-pixel> ] }
|
||||
{ 278 [ <rows-per-strip> ] }
|
||||
{ 279 [ <strip-byte-counts> ] }
|
||||
{ 282 [ <x-resolution> ] }
|
||||
{ 283 [ <y-resolution> ] }
|
||||
{ 284 [ <planar-configuration> ] }
|
||||
{ 296 [ lookup-resolution-unit ] }
|
||||
{ 317 [ lookup-predictor ] }
|
||||
[ unhandled-ifd-entry swap 2array ]
|
||||
{ 254 [ new-subfile-type ] }
|
||||
{ 256 [ image-width ] }
|
||||
{ 257 [ image-length ] }
|
||||
{ 258 [ bits-per-sample ] }
|
||||
{ 259 [ lookup-compression compression ] }
|
||||
{ 262 [ lookup-photometric-interpretation photometric-interpretation ] }
|
||||
{ 273 [ strip-offsets ] }
|
||||
{ 274 [ orientation ] }
|
||||
{ 277 [ samples-per-pixel ] }
|
||||
{ 278 [ rows-per-strip ] }
|
||||
{ 279 [ strip-byte-counts ] }
|
||||
{ 282 [ x-resolution ] }
|
||||
{ 283 [ y-resolution ] }
|
||||
{ 284 [ planar-configuration ] }
|
||||
{ 296 [ lookup-resolution-unit resolution-unit ] }
|
||||
{ 317 [ lookup-predictor predictor ] }
|
||||
{ 338 [ lookup-extra-samples extra-samples ] }
|
||||
{ 339 [ lookup-sample-format sample-format ] }
|
||||
[ nip unhandled-ifd-entry ]
|
||||
} case ;
|
||||
|
||||
: process-ifd ( ifd -- ifd )
|
||||
dup ifd-entries>> [ process-ifd-entry ] map >>processed-tags ;
|
||||
dup ifd-entries>>
|
||||
[ process-ifd-entry swap ] H{ } map>assoc >>processed-tags ;
|
||||
|
||||
: strips>buffer ( ifd -- ifd )
|
||||
dup strips>> concat >>buffer ;
|
||||
|
||||
: (load-tiff) ( path -- tiff )
|
||||
binary [
|
||||
<tiff>
|
||||
read-header
|
||||
read-ifds
|
||||
dup ifds>> [ process-ifd read-strips drop ] each
|
||||
read-header dup endianness>> [
|
||||
read-ifds
|
||||
dup ifds>> [ process-ifd read-strips strips>buffer drop ] each
|
||||
] with-endianness
|
||||
] with-file-reader ;
|
||||
|
||||
: load-tiff ( path -- tiff )
|
||||
(load-tiff) ;
|
||||
|
||||
! TODO: duplicate ifds = error, seeking out of bounds = error
|
||||
: load-tiff ( path -- tiff ) (load-tiff) ;
|
||||
|
|
|
@ -2,7 +2,7 @@
|
|||
! See http://factorcode.org/license.txt for BSD license.
|
||||
USING: accessors arrays combinators graphics.bitmap kernel math
|
||||
math.functions namespaces opengl opengl.gl ui ui.gadgets
|
||||
ui.gadgets.panes ui.render ;
|
||||
ui.gadgets.panes ui.render graphics.tiff sequences ;
|
||||
IN: graphics.viewer
|
||||
|
||||
TUPLE: graphics-gadget < gadget image ;
|
||||
|
@ -21,6 +21,14 @@ M: graphics-gadget draw-gadget* ( gadget -- )
|
|||
\ graphics-gadget new-gadget
|
||||
swap >>image ;
|
||||
|
||||
: bits>gl-params ( n -- gl-bgr gl-format )
|
||||
{
|
||||
{ 32 [ GL_BGRA GL_UNSIGNED_BYTE ] }
|
||||
{ 24 [ GL_BGR GL_UNSIGNED_BYTE ] }
|
||||
{ 8 [ GL_BGR GL_UNSIGNED_BYTE ] }
|
||||
{ 4 [ GL_BGR GL_UNSIGNED_BYTE ] }
|
||||
} case ;
|
||||
|
||||
M: bitmap draw-image ( bitmap -- )
|
||||
dup height>> 0 < [
|
||||
0 0 glRasterPos2i
|
||||
|
@ -32,12 +40,7 @@ M: bitmap draw-image ( bitmap -- )
|
|||
[ width>> ] keep
|
||||
[
|
||||
[ height>> abs ] keep
|
||||
bit-count>> {
|
||||
{ 32 [ GL_BGRA GL_UNSIGNED_BYTE ] }
|
||||
{ 24 [ GL_BGR GL_UNSIGNED_BYTE ] }
|
||||
{ 8 [ GL_BGR GL_UNSIGNED_BYTE ] }
|
||||
{ 4 [ GL_BGR GL_UNSIGNED_BYTE ] }
|
||||
} case
|
||||
bit-count>> bits>gl-params
|
||||
] keep array>> glDrawPixels ;
|
||||
|
||||
M: bitmap width ( bitmap -- ) width>> ;
|
||||
|
@ -48,3 +51,16 @@ M: bitmap height ( bitmap -- ) height>> ;
|
|||
|
||||
: bitmap-window ( path -- gadget )
|
||||
load-bitmap <graphics-gadget> [ "bitmap" open-window ] keep ;
|
||||
|
||||
M: tiff width ( tiff -- ) ifds>> first image-width find-tag ;
|
||||
M: tiff height ( tiff -- ) ifds>> first image-length find-tag ;
|
||||
|
||||
M: tiff draw-image ( tiff -- )
|
||||
[ 0 0 glRasterPos2i 1.0 -1.0 glPixelZoom ] dip
|
||||
ifds>> first
|
||||
{
|
||||
[ image-width find-tag ]
|
||||
[ image-length find-tag ]
|
||||
[ bits-per-sample find-tag sum bits>gl-params ]
|
||||
[ buffer>> ]
|
||||
} cleave glDrawPixels ;
|
||||
|
|
|
@ -11,5 +11,4 @@ IN: taxes.usa.futa
|
|||
|
||||
: futa-tax ( salary w4 -- x )
|
||||
drop futa-base-rate min
|
||||
futa-tax-rate futa-tax-offset-credit -
|
||||
* ;
|
||||
futa-tax-rate futa-tax-offset-credit - * ;
|
||||
|
|
|
@ -1,7 +1,9 @@
|
|||
! Copyright (C) 2008 Doug Coleman.
|
||||
! See http://factorcode.org/license.txt for BSD license.
|
||||
USING: accessors arrays assocs kernel math math.intervals
|
||||
namespaces sequences money math.order taxes.usa.w4 ;
|
||||
namespaces sequences money math.order taxes.usa.w4
|
||||
taxes.usa.futa math.finance taxes.usa.fica
|
||||
taxes.usa.federal ;
|
||||
IN: taxes.usa
|
||||
|
||||
! Withhold: FICA, Medicare, Federal (FICA is social security)
|
||||
|
|
Loading…
Reference in New Issue