- BlackBox:
name: Clash.Sized.Vector.head
kind: Expression
type: 'head :: Vec (n
+ 1) a -> a'
template: '~FROMBV[~VAR[vec][0][\~SIZE[~TYP[0]]-1 -: ~SIZE[~TYPO]\]][~TYPO]'
workInfo: Never
- BlackBox:
name: Clash.Sized.Vector.tail
kind: Expression
type: 'tail :: Vec (n
+ 1) a -> Vec n a'
template: '~VAR[vec][0][~SIZE[~TYPO]-1 : 0]'
workInfo: Never
- BlackBox:
name: Clash.Sized.Vector.last
kind: Expression
type: Vec (n + 1) a ->
a
template: ~FROMBV[~VAR[vec][0][\~SIZE[~TYPO]-1:0\]][~TYPO]
workInfo: Never
- BlackBox:
name: Clash.Sized.Vector.init
kind: Expression
type: Vec (n + 1) a ->
Vec n a
template: '~VAR[vec][0][~SIZE[~TYP[0]]-1 : ~SIZE[~TYPEL[~TYP[0]]]]'
workInfo: Never
- BlackBox:
name: Clash.Sized.Vector.select
kind: Declaration
type: |-
select :: (CmpNat (i + s) (s * n) ~ GT) -- ARG[0]
=> SNat f -- ARG[1]
-> SNat s -- ARG[2]
-> SNat n -- ARG[3]
-> Vec i a -- ARG[4]
-> Vec n a
template: |-
// select begin
wire ~TYPEL[~TYPO] ~SYM[1] [0:~LENGTH[~TYP[4]]-1];
genvar ~GENSYM[i][2];
~GENERATE
for (~SYM[2]=0; ~SYM[2] < ~LENGTH[~TYP[4]]; ~SYM[2]=~SYM[2]+1) begin : ~GENSYM[mk_array][3]
assign ~SYM[1][(~LENGTH[~TYP[4]]-1)-~SYM[2]] = ~VAR[vec][4][~SYM[2]*~SIZE[~TYPEL[~TYPO]]+:~SIZE[~TYPEL[~TYPO]]];
end
~ENDGENERATE
genvar ~GENSYM[i][4];
~GENERATE
for (~SYM[4]=0; ~SYM[4] < ~LIT[3]; ~SYM[4] = ~SYM[4] + 1) begin : ~GENSYM[select][5]
assign ~RESULT[(~LIT[3]-1-~SYM[4])*~SIZE[~TYPEL[~TYPO]]+:~SIZE[~TYPEL[~TYPO]]] = ~SYM[1][~LIT[1] + (~LIT[2] * ~SYM[4])];
end
~ENDGENERATE
// select end
workInfo: Never
- BlackBox:
name: Clash.Sized.Vector.++
kind: Expression
type: '(++) :: Vec n a
-> Vec m a -> Vec (n + m) a'
template: '{~ARG[0],~ARG[1]}'
workInfo: Never
- BlackBox:
name: Clash.Sized.Vector.concat
kind: Expression
type: 'concat :: Vec n
(Vec m a) -> Vec (n * m) a'
template: ~ARG[0]
workInfo: Never
- BlackBox:
name: Clash.Sized.Vector.splitAt
kind: Expression
type: 'splitAt :: SNat
m -> Vec (m + n) a -> (Vec m a, Vec n a)'
template: ~ARG[1]
workInfo: Never
- BlackBox:
name: Clash.Sized.Vector.unconcat
kind: Expression
type: |-
unconcat :: KnownNat n -- ARG[0]
=> SNat m -- ARG[1]
-> Vec (n * m) a -- ARG[2]
-> Vec n (Vec m a)
template: ~ARG[2]~DEVNULL[~ARG[0]]~DEVNULL[~ARG[1]]
workInfo: Never
- BlackBox:
name: Clash.Sized.Vector.map
kind: Declaration
type: 'map :: (a -> b)
-> Vec n a -> Vec n b'
template: |-
// map begin
genvar ~GENSYM[i][1];
~GENERATE
for (~SYM[1]=0; ~SYM[1] < ~LENGTH[~TYPO]; ~SYM[1] = ~SYM[1] + 1) begin : ~GENSYM[map][2]~IF~SIZE[~TYP[1]]~THEN
wire ~TYPEL[~TYP[1]] ~GENSYM[map_in][3];
assign ~SYM[3] = ~VAR[vec][1][~SYM[1]*~SIZE[~TYPEL[~TYP[1]]]+:~SIZE[~TYPEL[~TYP[1]]]];~ELSE ~FI
~OUTPUTUSAGE[0] ~TYPEL[~TYPO] ~GENSYM[map_out][4];
~INST 0
~OUTPUT <= ~SYM[4]~ ~TYPEL[~TYPO]~
~INPUT <= ~SYM[3]~ ~TYPEL[~TYP[1]]~
~INST
assign ~RESULT[~SYM[1]*~SIZE[~TYPEL[~TYPO]]+:~SIZE[~TYPEL[~TYPO]]] = ~SYM[4];
end
~ENDGENERATE
// map end
workInfo: Identity 1 [0]
- BlackBox:
name: Clash.Sized.Vector.imap
kind: Declaration
type: 'imap :: KnownNat
n => (Index n -> a -> b) -> Vec n a -> Vec n b'
template: |-
// imap begin
genvar ~GENSYM[i][1];
~GENERATE
for (~SYM[1]=0; ~SYM[1] < ~LENGTH[~TYPO]; ~SYM[1] = ~SYM[1] + 1) begin : ~GENSYM[imap][2]
wire [~SIZE[~INDEXTYPE[~LIT[0]]]-1:0] ~GENSYM[map_index][3];~IF~SIZE[~TYP[2]]~THEN
wire ~TYPEL[~TYP[2]] ~GENSYM[map_in][4];
assign ~SYM[4] = ~VAR[vec][2][~SYM[1]*~SIZE[~TYPEL[~TYP[2]]]+:~SIZE[~TYPEL[~TYP[2]]]];~ELSE ~FI
~OUTPUTUSAGE[1] ~TYPEL[~TYPO] ~GENSYM[map_out][5];
assign ~SYM[3] = ~SIZE[~INDEXTYPE[~LIT[0]]]'d~MAXINDEX[~TYPO] - ~SYM[1][0+:~SIZE[~INDEXTYPE[~LIT[0]]]];
~INST 1
~OUTPUT <= ~SYM[5]~ ~TYPEL[~TYPO]~
~INPUT <= ~SYM[3]~ ~INDEXTYPE[~LIT[0]]~
~INPUT <= ~SYM[4]~ ~TYPEL[~TYP[2]]~
~INST
assign ~RESULT[~SYM[1]*~SIZE[~TYPEL[~TYPO]]+:~SIZE[~TYPEL[~TYPO]]] = ~SYM[5];
end
~ENDGENERATE
// imap end
workInfo: Never
- BlackBox:
name: Clash.Sized.Vector.imap_go
kind: Declaration
type: 'imap :: Index n
-> (Index n -> a -> b) -> Vec m a -> Vec m b'
template: |-
// imap begin
genvar ~GENSYM[i][1];
~GENERATE
for (~SYM[1]=0; ~SYM[1] < ~LENGTH[~TYPO]; ~SYM[1] = ~SYM[1] + 1) begin : ~GENSYM[imap][2]
wire ~TYP[0] ~GENSYM[map_index][3];~IF~SIZE[~TYP[2]]~THEN
wire ~TYPEL[~TYP[2]] ~GENSYM[map_in][4];
assign ~SYM[4] = ~VAR[vec][2][~SYM[1]*~SIZE[~TYPEL[~TYP[2]]]+:~SIZE[~TYPEL[~TYP[2]]]];~ELSE ~FI
~OUTPUTUSAGE[1] ~TYPEL[~TYPO] ~GENSYM[map_out][5];
assign ~SYM[3] = ~SIZE[~TYP[0]]'d~MAXINDEX[~TYPO] - ~SYM[1][0+:~SIZE[~TYP[0]]] + ~ARG[0];
~INST 1
~OUTPUT <= ~SYM[5]~ ~TYPEL[~TYPO]~
~INPUT <= ~SYM[3]~ ~TYP[0]~
~INPUT <= ~SYM[4]~ ~TYPEL[~TYP[2]]~
~INST
assign ~RESULT[~SYM[1]*~SIZE[~TYPEL[~TYPO]]+:~SIZE[~TYPEL[~TYPO]]] = ~SYM[5];
end
~ENDGENERATE
// imap end
workInfo: Never
- BlackBox:
name: Clash.Sized.Vector.zipWith
kind: Declaration
type: 'zipWith :: (a ->
b -> c) -> Vec n a -> Vec n b -> Vec n c'
template: |-
// zipWith start
genvar ~GENSYM[i][2];
~GENERATE
for (~SYM[2] = 0; ~SYM[2] < ~LENGTH[~TYPO]; ~SYM[2] = ~SYM[2] + 1) begin : ~GENSYM[zipWith][6]~IF~SIZE[~TYP[1]]~THEN
wire ~TYPEL[~TYP[1]] ~GENSYM[zipWith_in1][3];
assign ~SYM[3] = ~VAR[vec1][1][~SYM[2]*~SIZE[~TYPEL[~TYP[1]]]+:~SIZE[~TYPEL[~TYP[1]]]];~ELSE ~FI~IF~SIZE[~TYP[2]]~THEN
wire ~TYPEL[~TYP[2]] ~GENSYM[zipWith_in2][4];
assign ~SYM[4] = ~VAR[vec2][2][~SYM[2]*~SIZE[~TYPEL[~TYP[2]]]+:~SIZE[~TYPEL[~TYP[2]]]];~ELSE ~FI
~OUTPUTUSAGE[0] ~TYPEL[~TYPO] ~SYM[5];
~INST 0
~OUTPUT <= ~SYM[5]~ ~TYPEL[~TYPO]~
~INPUT <= ~SYM[3]~ ~TYPEL[~TYP[1]]~
~INPUT <= ~SYM[4]~ ~TYPEL[~TYP[2]]~
~INST
assign ~RESULT[~SYM[2]*~SIZE[~TYPEL[~TYPO]]+:~SIZE[~TYPEL[~TYPO]]] = ~SYM[5];
end
~ENDGENERATE
// zipWith end
workInfo: Never
- BlackBox:
name: Clash.Sized.Vector.foldr
kind: Declaration
type: 'foldr :: (a ->
b -> b) -> b -> Vec n a -> b'
template: |-
// foldr start~IF ~LENGTH[~TYP[2]] ~THEN
wire ~TYPO ~GENSYM[intermediate][0] [0:~LENGTH[~TYP[2]]];
assign ~SYM[0][~LENGTH[~TYP[2]]] = ~ARG[1];
genvar ~GENSYM[i][3];
~GENERATE
for (~SYM[3]=0; ~SYM[3] < ~LENGTH[~TYP[2]]; ~SYM[3]=~SYM[3]+1) begin : ~GENSYM[foldr][4]~IF~SIZE[~TYP[2]]~THEN
wire ~TYPEL[~TYP[2]] ~GENSYM[foldr_in1][5];
assign ~SYM[5] = ~VAR[xs][2][(~LENGTH[~TYP[2]]-1-~SYM[3])*~SIZE[~TYPEL[~TYP[2]]]+:~SIZE[~TYPEL[~TYP[2]]]];~ELSE ~FI
wire ~TYPO ~GENSYM[foldr_in2][6];
~OUTPUTUSAGE[0] ~TYPO ~GENSYM[foldr_out][7];
assign ~SYM[6] = ~SYM[0][~SYM[3]+1];
~INST 0
~OUTPUT <= ~SYM[7]~ ~TYP[1]~
~INPUT <= ~SYM[5]~ ~TYPEL[~TYP[2]]~
~INPUT <= ~SYM[6]~ ~TYP[1]~
~INST
assign ~SYM[0][~SYM[3]] = ~SYM[7];
end
~ENDGENERATE
assign ~RESULT = ~SYM[0][0];
~ELSE
assign ~RESULT = ~ARG[1];
~FI// foldr end
workInfo: Never
- BlackBoxHaskell:
name: Clash.Sized.Vector.index_int
templateFunction: Clash.Primitives.Sized.Vector.indexIntVerilog
- BlackBox:
name: Clash.Sized.Vector.replace_int
kind: Declaration
type: 'replace_int ::
KnownNat n => Vec n a -> Int -> a -> Vec n a'
template: |-
// vector replace begin
genvar ~GENSYM[i][0];
~GENERATE
for (~SYM[0]=0;~SYM[0]<~LENGTH[~TYPO];~SYM[0]=~SYM[0]+1) begin : ~GENSYM[vector_replace][1]
assign ~RESULT[(~MAXINDEX[~TYPO]-~SYM[0])*~SIZE[~TYP[3]]+:~SIZE[~TYP[3]]] = ~ARG[2] == ~SYM[0] ? ~ARG[3] : ~VAR[vec][1][(~MAXINDEX[~TYPO]-~SYM[0])*~SIZE[~TYP[3]]+:~SIZE[~TYP[3]]];
end
~ENDGENERATE
// vector replace end
- BlackBox:
name: Clash.Sized.Vector.maxIndex
kind: Expression
type: 'maxIndex :: KnownNat
n => Vec n a -> Int'
template: ~SIZE[~TYPO]'sd~LIT[0] - ~SIZE[~TYPO]'d1
workInfo: Constant
- BlackBox:
name: Clash.Sized.Vector.length
kind: Expression
type: 'length :: KnownNat
n => Vec n a -> Int'
template: ~SIZE[~TYPO]'sd~LIT[0]
workInfo: Constant
- BlackBox:
name: Clash.Sized.Vector.replicate
kind: Expression
type: 'replicate :: SNat
n -> a -> Vec n a'
template: '{~LIT[0] {~ARG[1]}}'
workInfo: Never
- BlackBox:
name: Clash.Sized.Vector.transpose
kind: Declaration
type: 'transpose :: KnownNat
n => Vec m (Vec n a) -> Vec n (Vec m a)'
template: |-
// transpose begin
genvar ~GENSYM[row_index][1];
genvar ~GENSYM[col_index][2];
~GENERATE
for (~SYM[1] = 0; ~SYM[1] < ~LENGTH[~TYP[1]]; ~SYM[1] = ~SYM[1] + 1) begin : ~GENSYM[transpose_outer][3]
for (~SYM[2] = 0; ~SYM[2] < ~LENGTH[~TYPO]; ~SYM[2] = ~SYM[2] + 1) begin : ~GENSYM[transpose_inner][4]
assign ~RESULT[((~SYM[2]*~SIZE[~TYPEL[~TYPO]])+(~SYM[1]*~SIZE[~TYPEL[~TYPEL[~TYPO]]]))+:~SIZE[~TYPEL[~TYPEL[~TYPO]]]] = ~VAR[matrix][1][((~SYM[1]*~SIZE[~TYPEL[~TYP[1]]])+(~SYM[2]*~SIZE[~TYPEL[~TYPEL[~TYPO]]]))+:~SIZE[~TYPEL[~TYPEL[~TYPO]]]];
end
end
~ENDGENERATE
// transpose end
workInfo: Never
- BlackBox:
name: Clash.Sized.Vector.reverse
kind: Declaration
type: 'reverse :: Vec
n a -> Vec n a'
template: |-
// reverse begin
genvar ~GENSYM[i][1];
~GENERATE
for (~SYM[1] = 0; ~SYM[1] < ~LENGTH[~TYPO]; ~SYM[1] = ~SYM[1] + 1) begin : ~GENSYM[reverse][2]
assign ~RESULT[(~LENGTH[~TYPO] - 1 - ~SYM[1])*~SIZE[~TYPEL[~TYPO]]+:~SIZE[~TYPEL[~TYPO]]] = ~VAR[vec][0][~SYM[1]*~SIZE[~TYPEL[~TYPO]]+:~SIZE[~TYPEL[~TYPO]]];
end
~ENDGENERATE
// reverse end
workInfo: Never
- BlackBox:
name: Clash.Sized.Vector.concatBitVector#
kind: Expression
type: |-
concatBitVector# :: (KnownNat n, KnownNat m) -- (ARG[0],ARG[1])
=> Vec n (BitVector m) -- ARG[2]
-> BitVector (n * m)
template: ~ARG[2]
workInfo: Never
- BlackBox:
name: Clash.Sized.Vector.unconcatBitVector#
kind: Expression
type: |-
unconcatBitVector# :: (KnownNat n, KnownNat m) -- (ARG[0],ARG[1])
=> BitVector (n * m) -- ARG[2]
-> Vec n (BitVector m)
template: ~ARG[2]
workInfo: Never
- BlackBox:
name: Clash.Sized.Vector.rotateLeftS
kind: Declaration
type: 'rotateLeftS ::
KnownNat n => Vec n a -> SNat d -> Vec n a'
template: |-
// rotateLeftS begin
localparam ~GENSYM[shift_amount][2] = ~LIT[2] % ~LIT[0];
~GENERATE
if (~SYM[2] == 0) begin : ~GENSYM[no_shift][3]
assign ~RESULT = ~VAR[vec][1];
end else begin : ~GENSYM[do_shift][4]
assign ~RESULT = {~VAR[vec][1][((~LIT[0]-~SYM[2])*~SIZE[~TYPEL[~TYPO]])-1 : 0]
,~VAR[vec][1][~SIZE[~TYPO]-1 : (~LIT[0]-~SYM[2])*~SIZE[~TYPEL[~TYPO]]]
};
end
~ENDGENERATE
// rotateLeftS end
workInfo: Never
- BlackBox:
name: Clash.Sized.Vector.rotateRightS
kind: Declaration
type: 'rotateRightS ::
KnownNat n => Vec n a -> SNat d -> Vec n a'
template: |-
// rotateRightS begin
localparam ~GENSYM[shift_amount][2] = ~LIT[2] % ~LIT[0];
~GENERATE
if (~SYM[2] == 0) begin : ~GENSYM[no_shift][3]
assign ~RESULT = ~VAR[vec][1];
end else begin : ~GENSYM[do_shift][4]
assign ~RESULT = {~VAR[vec][1][(~SYM[2]*~SIZE[~TYPEL[~TYPO]])-1 : 0]
,~VAR[vec][1][~SIZE[~TYPO]-1 : ~SYM[2]*~SIZE[~TYPEL[~TYPO]]]
};
end
~ENDGENERATE
// rotateRightS end
workInfo: Never