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-rw-r--r--Build/source/utils/asymptote/runarray.cc640
1 files changed, 336 insertions, 304 deletions
diff --git a/Build/source/utils/asymptote/runarray.cc b/Build/source/utils/asymptote/runarray.cc
index 0ae52bcf918..5ba123e8616 100644
--- a/Build/source/utils/asymptote/runarray.cc
+++ b/Build/source/utils/asymptote/runarray.cc
@@ -362,7 +362,7 @@ array *mult(array *a, array *b)
array *ci=new array(nb0);
(*c)[i]=ci;
for(size_t j=0; j < nb0; ++j) {
- T sum=0.0;
+ T sum=T();
size_t kj=j;
for(size_t k=0; k < nb; ++k, kj += nb0)
sum += Ai[k]*B[kj];
@@ -523,6 +523,13 @@ void integeroverflow(size_t i)
buf << "Integer overflow";
error(buf);
}
+
+void checkSize(Int n, Int depth)
+{
+ if(n < 0) error("cannot create a negative length array");
+ if(depth < 0) error("cannot copy to a negative depth");
+}
+
}
// Autogenerated routines:
@@ -533,10 +540,10 @@ void integeroverflow(size_t i)
namespace run {
// Create an empty array.
-#line 444 "runarray.in"
+#line 451 "runarray.in"
void emptyArray(stack *Stack)
{
-#line 445 "runarray.in"
+#line 452 "runarray.in"
{Stack->push<array*>(new array(0)); return;}
}
@@ -545,11 +552,11 @@ void emptyArray(stack *Stack)
// is popped off the stack, followed by each dimension in reverse order.
// The array itself is technically a one dimensional array of one
// dimension arrays and so on.
-#line 454 "runarray.in"
+#line 461 "runarray.in"
void newDeepArray(stack *Stack)
{
Int depth=vm::pop<Int>(Stack);
-#line 455 "runarray.in"
+#line 462 "runarray.in"
assert(depth > 0);
Int *dims = new Int[depth];
@@ -568,11 +575,11 @@ void newDeepArray(stack *Stack)
// Creates an array with elements already specified. First, the number
// of elements is popped off the stack, followed by each element in
// reverse order.
-#line 474 "runarray.in"
+#line 481 "runarray.in"
void newInitializedArray(stack *Stack)
{
Int n=vm::pop<Int>(Stack);
-#line 475 "runarray.in"
+#line 482 "runarray.in"
assert(n >= 0);
array *a = new array(n);
@@ -585,12 +592,12 @@ void newInitializedArray(stack *Stack)
// Similar to newInitializedArray, but after the n elements, append another
// array to it.
-#line 488 "runarray.in"
+#line 495 "runarray.in"
void newAppendedArray(stack *Stack)
{
Int n=vm::pop<Int>(Stack);
array* tail=vm::pop<array*>(Stack);
-#line 489 "runarray.in"
+#line 496 "runarray.in"
assert(n >= 0);
array *a = new array(n);
@@ -603,28 +610,49 @@ void newAppendedArray(stack *Stack)
{Stack->push<array*>(a); return;}
}
-// The function T[] array(int n, T value, int depth=0) produces a array of n
-// copies of x, where each copy is copied up to depth.
-#line 504 "runarray.in"
-void newDuplicateArray(stack *Stack)
+// Produce an array of n deep copies of value.
+#line 510 "runarray.in"
+void copyArray0(stack *Stack)
{
Int depth=vm::pop<Int>(Stack,Int_MAX);
item value=vm::pop(Stack);
Int n=vm::pop<Int>(Stack);
-#line 505 "runarray.in"
- if(n < 0) error("cannot create a negative length array");
- if(depth < 0) error("cannot copy to a negative depth");
+#line 511 "runarray.in"
+ checkSize(n,depth);
+ {Stack->push<array*>(new array((size_t) n, value, (size_t) 0)); return;}
+}
- {Stack->push<array*>(new array(n, value, depth)); return;}
+#line 516 "runarray.in"
+void copyArray1(stack *Stack)
+{
+ Int depth=vm::pop<Int>(Stack,Int_MAX);
+ item value=vm::pop(Stack);
+ Int n=vm::pop<Int>(Stack);
+#line 517 "runarray.in"
+ checkSize(n,depth);
+ if(depth > 1) depth=1;
+ {Stack->push<array*>(new array((size_t) n, value, (size_t) depth)); return;}
+}
+
+#line 523 "runarray.in"
+void copyArray2(stack *Stack)
+{
+ Int depth=vm::pop<Int>(Stack,Int_MAX);
+ item value=vm::pop(Stack);
+ Int n=vm::pop<Int>(Stack);
+#line 524 "runarray.in"
+ checkSize(n,depth);
+ if(depth > 2) depth=2;
+ {Stack->push<array*>(new array((size_t) n, value, (size_t) depth)); return;}
}
// Read an element from an array. Checks for initialization & bounds.
-#line 513 "runarray.in"
+#line 531 "runarray.in"
void arrayRead(stack *Stack)
{
Int n=vm::pop<Int>(Stack);
array * a=vm::pop<array *>(Stack);
-#line 514 "runarray.in"
+#line 532 "runarray.in"
item& i=arrayRead(a,n);
if (i.empty()) {
ostringstream buf;
@@ -635,50 +663,50 @@ void arrayRead(stack *Stack)
}
// Slice a substring from an array.
-#line 525 "runarray.in"
+#line 543 "runarray.in"
void arraySliceRead(stack *Stack)
{
Int right=vm::pop<Int>(Stack);
Int left=vm::pop<Int>(Stack);
array * a=vm::pop<array *>(Stack);
-#line 526 "runarray.in"
+#line 544 "runarray.in"
checkArray(a);
{Stack->push(a->slice(left, right)); return;}
}
// Slice a substring from an array. This implements the cases a[i:] and a[:]
// where the endpoint is not given, and assumed to be the length of the array.
-#line 533 "runarray.in"
+#line 551 "runarray.in"
void arraySliceReadToEnd(stack *Stack)
{
Int left=vm::pop<Int>(Stack);
array * a=vm::pop<array *>(Stack);
-#line 534 "runarray.in"
+#line 552 "runarray.in"
size_t len=checkArray(a);
{Stack->push(a->slice(left, (Int)len)); return;}
}
// Read an element from an array of arrays. Check bounds and initialize
// as necessary.
-#line 541 "runarray.in"
+#line 559 "runarray.in"
void arrayArrayRead(stack *Stack)
{
Int n=vm::pop<Int>(Stack);
array * a=vm::pop<array *>(Stack);
-#line 542 "runarray.in"
+#line 560 "runarray.in"
item& i=arrayRead(a,n);
if (i.empty()) i=new array(0);
{Stack->push(i); return;}
}
// Write an element to an array. Increase size if necessary.
-#line 549 "runarray.in"
+#line 567 "runarray.in"
void arrayWrite(stack *Stack)
{
Int n=vm::pop<Int>(Stack);
array * a=vm::pop<array *>(Stack);
item value=vm::pop(Stack);
-#line 550 "runarray.in"
+#line 568 "runarray.in"
size_t len=checkArray(a);
bool cyclic=a->cyclic();
if(cyclic && len > 0) n=imod(n,len);
@@ -692,27 +720,27 @@ void arrayWrite(stack *Stack)
{Stack->push(value); return;}
}
-#line 564 "runarray.in"
+#line 582 "runarray.in"
void arraySliceWrite(stack *Stack)
{
Int right=vm::pop<Int>(Stack);
Int left=vm::pop<Int>(Stack);
array * dest=vm::pop<array *>(Stack);
array * src=vm::pop<array *>(Stack);
-#line 565 "runarray.in"
+#line 583 "runarray.in"
checkArray(src);
checkArray(dest);
dest->setSlice(left, right, src);
{Stack->push<array*>(src); return;}
}
-#line 572 "runarray.in"
+#line 590 "runarray.in"
void arraySliceWriteToEnd(stack *Stack)
{
Int left=vm::pop<Int>(Stack);
array * dest=vm::pop<array *>(Stack);
array * src=vm::pop<array *>(Stack);
-#line 573 "runarray.in"
+#line 591 "runarray.in"
checkArray(src);
size_t len=checkArray(dest);
dest->setSlice(left, (Int) len, src);
@@ -720,20 +748,20 @@ void arraySliceWriteToEnd(stack *Stack)
}
// Returns the length of an array.
-#line 581 "runarray.in"
+#line 599 "runarray.in"
void arrayLength(stack *Stack)
{
array * a=vm::pop<array *>(Stack);
-#line 582 "runarray.in"
+#line 600 "runarray.in"
{Stack->push<Int>((Int) checkArray(a)); return;}
}
// Returns an array of integers representing the keys of the array.
-#line 587 "runarray.in"
+#line 605 "runarray.in"
void arrayKeys(stack *Stack)
{
array * a=vm::pop<array *>(Stack);
-#line 588 "runarray.in"
+#line 606 "runarray.in"
size_t size=checkArray(a);
array *keys=new array();
@@ -747,33 +775,33 @@ void arrayKeys(stack *Stack)
}
// Return the cyclic flag for an array.
-#line 602 "runarray.in"
+#line 620 "runarray.in"
void arrayCyclicFlag(stack *Stack)
{
array * a=vm::pop<array *>(Stack);
-#line 603 "runarray.in"
+#line 621 "runarray.in"
checkArray(a);
{Stack->push<bool>(a->cyclic()); return;}
}
-#line 608 "runarray.in"
+#line 626 "runarray.in"
void arraySetCyclicFlag(stack *Stack)
{
array * a=vm::pop<array *>(Stack);
bool b=vm::pop<bool>(Stack);
-#line 609 "runarray.in"
+#line 627 "runarray.in"
checkArray(a);
a->cyclic(b);
{Stack->push<bool>(b); return;}
}
// Check to see if an array element is initialized.
-#line 616 "runarray.in"
+#line 634 "runarray.in"
void arrayInitializedHelper(stack *Stack)
{
array * a=vm::pop<array *>(Stack);
Int n=vm::pop<Int>(Stack);
-#line 617 "runarray.in"
+#line 635 "runarray.in"
size_t len=checkArray(a);
bool cyclic=a->cyclic();
if(cyclic && len > 0) n=imod(n,len);
@@ -783,62 +811,62 @@ void arrayInitializedHelper(stack *Stack)
}
// Returns the initialize method for an array.
-#line 627 "runarray.in"
+#line 645 "runarray.in"
void arrayInitialized(stack *Stack)
{
array * a=vm::pop<array *>(Stack);
-#line 628 "runarray.in"
+#line 646 "runarray.in"
{Stack->push<callable*>(new thunk(new bfunc(arrayInitializedHelper),a)); return;}
}
// The helper function for the cyclic method that sets the cyclic flag.
-#line 633 "runarray.in"
+#line 651 "runarray.in"
void arrayCyclicHelper(stack *Stack)
{
array * a=vm::pop<array *>(Stack);
bool b=vm::pop<bool>(Stack);
-#line 634 "runarray.in"
+#line 652 "runarray.in"
checkArray(a);
a->cyclic(b);
}
// Set the cyclic flag for an array.
-#line 640 "runarray.in"
+#line 658 "runarray.in"
void arrayCyclic(stack *Stack)
{
array * a=vm::pop<array *>(Stack);
-#line 641 "runarray.in"
+#line 659 "runarray.in"
{Stack->push<callable*>(new thunk(new bfunc(arrayCyclicHelper),a)); return;}
}
// The helper function for the push method that does the actual operation.
-#line 646 "runarray.in"
+#line 664 "runarray.in"
void arrayPushHelper(stack *Stack)
{
array * a=vm::pop<array *>(Stack);
item x=vm::pop(Stack);
-#line 647 "runarray.in"
+#line 665 "runarray.in"
checkArray(a);
a->push(x);
{Stack->push(x); return;}
}
// Returns the push method for an array.
-#line 654 "runarray.in"
+#line 672 "runarray.in"
void arrayPush(stack *Stack)
{
array * a=vm::pop<array *>(Stack);
-#line 655 "runarray.in"
+#line 673 "runarray.in"
{Stack->push<callable*>(new thunk(new bfunc(arrayPushHelper),a)); return;}
}
// The helper function for the append method that appends b to a.
-#line 660 "runarray.in"
+#line 678 "runarray.in"
void arrayAppendHelper(stack *Stack)
{
array * a=vm::pop<array *>(Stack);
array * b=vm::pop<array *>(Stack);
-#line 661 "runarray.in"
+#line 679 "runarray.in"
checkArray(a);
size_t size=checkArray(b);
for(size_t i=0; i < size; i++)
@@ -846,20 +874,20 @@ void arrayAppendHelper(stack *Stack)
}
// Returns the append method for an array.
-#line 669 "runarray.in"
+#line 687 "runarray.in"
void arrayAppend(stack *Stack)
{
array * a=vm::pop<array *>(Stack);
-#line 670 "runarray.in"
+#line 688 "runarray.in"
{Stack->push<callable*>(new thunk(new bfunc(arrayAppendHelper),a)); return;}
}
// The helper function for the pop method.
-#line 675 "runarray.in"
+#line 693 "runarray.in"
void arrayPopHelper(stack *Stack)
{
array * a=vm::pop<array *>(Stack);
-#line 676 "runarray.in"
+#line 694 "runarray.in"
size_t asize=checkArray(a);
if(asize == 0)
error("cannot pop element from empty array");
@@ -867,22 +895,22 @@ void arrayPopHelper(stack *Stack)
}
// Returns the pop method for an array.
-#line 684 "runarray.in"
+#line 702 "runarray.in"
void arrayPop(stack *Stack)
{
array * a=vm::pop<array *>(Stack);
-#line 685 "runarray.in"
+#line 703 "runarray.in"
{Stack->push<callable*>(new thunk(new bfunc(arrayPopHelper),a)); return;}
}
// The helper function for the insert method.
-#line 690 "runarray.in"
+#line 708 "runarray.in"
void arrayInsertHelper(stack *Stack)
{
array * a=vm::pop<array *>(Stack);
array * x=vm::pop<array *>(Stack);
Int i=vm::pop<Int>(Stack);
-#line 691 "runarray.in"
+#line 709 "runarray.in"
size_t asize=checkArray(a);
checkArray(x);
if(a->cyclic() && asize > 0) i=imod(i,asize);
@@ -892,39 +920,39 @@ void arrayInsertHelper(stack *Stack)
}
// Returns the insert method for an array.
-#line 701 "runarray.in"
+#line 719 "runarray.in"
void arrayInsert(stack *Stack)
{
array * a=vm::pop<array *>(Stack);
-#line 702 "runarray.in"
+#line 720 "runarray.in"
{Stack->push<callable*>(new thunk(new bfunc(arrayInsertHelper),a)); return;}
}
// Returns the delete method for an array.
-#line 707 "runarray.in"
+#line 725 "runarray.in"
void arrayDelete(stack *Stack)
{
array * a=vm::pop<array *>(Stack);
-#line 708 "runarray.in"
+#line 726 "runarray.in"
{Stack->push<callable*>(new thunk(new bfunc(arrayDeleteHelper),a)); return;}
}
-#line 712 "runarray.in"
+#line 730 "runarray.in"
void arrayAlias(stack *Stack)
{
array * b=vm::pop<array *>(Stack);
array * a=vm::pop<array *>(Stack);
-#line 713 "runarray.in"
+#line 731 "runarray.in"
{Stack->push<bool>(a==b); return;}
}
// Return array formed by indexing array a with elements of integer array b
-#line 718 "runarray.in"
+#line 736 "runarray.in"
void arrayIntArray(stack *Stack)
{
array * b=vm::pop<array *>(Stack);
array * a=vm::pop<array *>(Stack);
-#line 719 "runarray.in"
+#line 737 "runarray.in"
size_t asize=checkArray(a);
size_t bsize=checkArray(b);
array *r=new array(bsize);
@@ -942,13 +970,13 @@ void arrayIntArray(stack *Stack)
// returns the complement of the integer array a in {0,2,...,n-1},
// so that b[complement(a,b.length)] yields the complement of b[a].
-#line 737 "runarray.in"
+#line 755 "runarray.in"
// Intarray* complement(Intarray *a, Int n);
-void gen_runarray31(stack *Stack)
+void gen_runarray33(stack *Stack)
{
Int n=vm::pop<Int>(Stack);
Intarray * a=vm::pop<Intarray *>(Stack);
-#line 738 "runarray.in"
+#line 756 "runarray.in"
size_t asize=checkArray(a);
array *r=new array(0);
bool *keep=new bool[n];
@@ -965,12 +993,12 @@ void gen_runarray31(stack *Stack)
}
// Generate the sequence {f(i) : i=0,1,...n-1} given a function f and integer n
-#line 755 "runarray.in"
+#line 773 "runarray.in"
void arraySequence(stack *Stack)
{
Int n=vm::pop<Int>(Stack);
callable * f=vm::pop<callable *>(Stack);
-#line 756 "runarray.in"
+#line 774 "runarray.in"
if(n < 0) n=0;
array *a=new array(n);
for(Int i=0; i < n; ++i) {
@@ -982,12 +1010,12 @@ void arraySequence(stack *Stack)
}
// Return the array {0,1,...n-1}
-#line 768 "runarray.in"
+#line 786 "runarray.in"
// Intarray* sequence(Int n);
-void gen_runarray33(stack *Stack)
+void gen_runarray35(stack *Stack)
{
Int n=vm::pop<Int>(Stack);
-#line 769 "runarray.in"
+#line 787 "runarray.in"
if(n < 0) n=0;
array *a=new array(n);
for(Int i=0; i < n; ++i) {
@@ -997,12 +1025,12 @@ void gen_runarray33(stack *Stack)
}
// Apply a function to each element of an array
-#line 779 "runarray.in"
+#line 797 "runarray.in"
void arrayFunction(stack *Stack)
{
array * a=vm::pop<array *>(Stack);
callable * f=vm::pop<callable *>(Stack);
-#line 780 "runarray.in"
+#line 798 "runarray.in"
size_t size=checkArray(a);
array *b=new array(size);
for(size_t i=0; i < size; ++i) {
@@ -1013,12 +1041,12 @@ void arrayFunction(stack *Stack)
{Stack->push<array*>(b); return;}
}
-#line 791 "runarray.in"
+#line 809 "runarray.in"
void arraySort(stack *Stack)
{
callable * f=vm::pop<callable *>(Stack);
array * a=vm::pop<array *>(Stack);
-#line 792 "runarray.in"
+#line 810 "runarray.in"
array *c=copyArray(a);
compareFunc=f;
FuncStack=Stack;
@@ -1026,12 +1054,12 @@ void arraySort(stack *Stack)
{Stack->push<array*>(c); return;}
}
-#line 800 "runarray.in"
+#line 818 "runarray.in"
// bool all(boolarray *a);
-void gen_runarray36(stack *Stack)
+void gen_runarray38(stack *Stack)
{
boolarray * a=vm::pop<boolarray *>(Stack);
-#line 801 "runarray.in"
+#line 819 "runarray.in"
size_t size=checkArray(a);
bool c=true;
for(size_t i=0; i < size; i++)
@@ -1039,12 +1067,12 @@ void gen_runarray36(stack *Stack)
{Stack->push<bool>(c); return;}
}
-#line 809 "runarray.in"
+#line 827 "runarray.in"
// boolarray* !(boolarray* a);
-void gen_runarray37(stack *Stack)
+void gen_runarray39(stack *Stack)
{
boolarray* a=vm::pop<boolarray*>(Stack);
-#line 810 "runarray.in"
+#line 828 "runarray.in"
size_t size=checkArray(a);
array *c=new array(size);
for(size_t i=0; i < size; i++)
@@ -1052,12 +1080,12 @@ void gen_runarray37(stack *Stack)
{Stack->push<boolarray*>(c); return;}
}
-#line 818 "runarray.in"
+#line 836 "runarray.in"
// Int sum(boolarray *a);
-void gen_runarray38(stack *Stack)
+void gen_runarray40(stack *Stack)
{
boolarray * a=vm::pop<boolarray *>(Stack);
-#line 819 "runarray.in"
+#line 837 "runarray.in"
size_t size=checkArray(a);
Int sum=0;
for(size_t i=0; i < size; i++)
@@ -1065,19 +1093,19 @@ void gen_runarray38(stack *Stack)
{Stack->push<Int>(sum); return;}
}
-#line 827 "runarray.in"
+#line 845 "runarray.in"
void arrayCopy(stack *Stack)
{
array * a=vm::pop<array *>(Stack);
-#line 828 "runarray.in"
+#line 846 "runarray.in"
{Stack->push<array*>(copyArray(a)); return;}
}
-#line 832 "runarray.in"
+#line 850 "runarray.in"
void arrayConcat(stack *Stack)
{
array * a=vm::pop<array *>(Stack);
-#line 833 "runarray.in"
+#line 851 "runarray.in"
// a is an array of arrays to be concatenated together.
// The signature is
// T[] concat(... T[][] a);
@@ -1104,27 +1132,27 @@ void arrayConcat(stack *Stack)
{Stack->push<array*>(result); return;}
}
-#line 860 "runarray.in"
+#line 878 "runarray.in"
void array2Copy(stack *Stack)
{
array * a=vm::pop<array *>(Stack);
-#line 861 "runarray.in"
+#line 879 "runarray.in"
{Stack->push<array*>(copyArray2(a)); return;}
}
-#line 865 "runarray.in"
+#line 883 "runarray.in"
void array3Copy(stack *Stack)
{
array * a=vm::pop<array *>(Stack);
-#line 866 "runarray.in"
+#line 884 "runarray.in"
{Stack->push<array*>(copyArray3(a)); return;}
}
-#line 870 "runarray.in"
+#line 888 "runarray.in"
void array2Transpose(stack *Stack)
{
array * a=vm::pop<array *>(Stack);
-#line 871 "runarray.in"
+#line 889 "runarray.in"
size_t asize=checkArray(a);
array *c=new array(0);
for(size_t i=0; i < asize; i++) {
@@ -1151,12 +1179,12 @@ void array2Transpose(stack *Stack)
// permutation (021 or 120, etc; original is 012).
// Transpose by sending respective members to the permutated locations:
// return the array obtained by putting a[i][j][k] into position perm{ijk}.
-#line 898 "runarray.in"
+#line 916 "runarray.in"
void array3Transpose(stack *Stack)
{
array * perm=vm::pop<array *>(Stack);
array * a=vm::pop<array *>(Stack);
-#line 899 "runarray.in"
+#line 917 "runarray.in"
const size_t DIM=3;
if(checkArray(perm) != DIM) {
@@ -1240,13 +1268,13 @@ void array3Transpose(stack *Stack)
// In a boolean array, find the index of the nth true value or -1 if not found
// If n is negative, search backwards.
-#line 983 "runarray.in"
+#line 1001 "runarray.in"
// Int find(boolarray *a, Int n=1);
-void gen_runarray45(stack *Stack)
+void gen_runarray47(stack *Stack)
{
Int n=vm::pop<Int>(Stack,1);
boolarray * a=vm::pop<boolarray *>(Stack);
-#line 984 "runarray.in"
+#line 1002 "runarray.in"
size_t size=checkArray(a);
Int j=-1;
if(n > 0)
@@ -1264,13 +1292,13 @@ void gen_runarray45(stack *Stack)
// construct vector obtained by replacing those elements of b for which the
// corresponding elements of a are false by the corresponding element of c.
-#line 1002 "runarray.in"
+#line 1020 "runarray.in"
void arrayConditional(stack *Stack)
{
array * c=vm::pop<array *>(Stack);
array * b=vm::pop<array *>(Stack);
array * a=vm::pop<array *>(Stack);
-#line 1003 "runarray.in"
+#line 1021 "runarray.in"
size_t size=checkArray(a);
array *r=new array(size);
if(b && c) {
@@ -1294,22 +1322,22 @@ void arrayConditional(stack *Stack)
}
// Return an n x n identity matrix.
-#line 1027 "runarray.in"
+#line 1045 "runarray.in"
// realarray2* identity(Int n);
-void gen_runarray47(stack *Stack)
+void gen_runarray49(stack *Stack)
{
Int n=vm::pop<Int>(Stack);
-#line 1028 "runarray.in"
+#line 1046 "runarray.in"
{Stack->push<realarray2*>(Identity(n)); return;}
}
// Return the inverse of an n x n matrix a using Gauss-Jordan elimination.
-#line 1033 "runarray.in"
+#line 1051 "runarray.in"
// realarray2* inverse(realarray2 *a);
-void gen_runarray48(stack *Stack)
+void gen_runarray50(stack *Stack)
{
realarray2 * a=vm::pop<realarray2 *>(Stack);
-#line 1034 "runarray.in"
+#line 1052 "runarray.in"
a=copyArray2(a);
size_t n=checkArray(a);
checkSquare(a);
@@ -1402,14 +1430,14 @@ void gen_runarray48(stack *Stack)
// Solve the linear equation ax=b by LU decomposition, returning the
// solution x, where a is an n x n matrix and b is an array of length n.
// If no solution exists, return an empty array.
-#line 1127 "runarray.in"
+#line 1145 "runarray.in"
// realarray* solve(realarray2 *a, realarray *b, bool warn=true);
-void gen_runarray49(stack *Stack)
+void gen_runarray51(stack *Stack)
{
bool warn=vm::pop<bool>(Stack,true);
realarray * b=vm::pop<realarray *>(Stack);
realarray2 * a=vm::pop<realarray2 *>(Stack);
-#line 1128 "runarray.in"
+#line 1146 "runarray.in"
size_t n=checkArray(a);
if(n == 0) {Stack->push<realarray*>(new array(0)); return;}
@@ -1461,14 +1489,14 @@ void gen_runarray49(stack *Stack)
// Solve the linear equation ax=b by LU decomposition, returning the
// solution x, where a is an n x n matrix and b is an n x m matrix.
// If no solution exists, return an empty array.
-#line 1180 "runarray.in"
+#line 1198 "runarray.in"
// realarray2* solve(realarray2 *a, realarray2 *b, bool warn=true);
-void gen_runarray50(stack *Stack)
+void gen_runarray52(stack *Stack)
{
bool warn=vm::pop<bool>(Stack,true);
realarray2 * b=vm::pop<realarray2 *>(Stack);
realarray2 * a=vm::pop<realarray2 *>(Stack);
-#line 1181 "runarray.in"
+#line 1199 "runarray.in"
size_t n=checkArray(a);
if(n == 0) {Stack->push<realarray2*>(new array(0)); return;}
@@ -1530,12 +1558,12 @@ void gen_runarray50(stack *Stack)
}
// Compute the determinant of an n x n matrix.
-#line 1243 "runarray.in"
+#line 1261 "runarray.in"
// real determinant(realarray2 *a);
-void gen_runarray51(stack *Stack)
+void gen_runarray53(stack *Stack)
{
realarray2 * a=vm::pop<realarray2 *>(Stack);
-#line 1244 "runarray.in"
+#line 1262 "runarray.in"
real *A;
copyArray2C(A,a);
size_t n=checkArray(a);
@@ -1550,13 +1578,13 @@ void gen_runarray51(stack *Stack)
{Stack->push<real>(det); return;}
}
-#line 1259 "runarray.in"
+#line 1277 "runarray.in"
// realarray* *(realarray2 *a, realarray *b);
-void gen_runarray52(stack *Stack)
+void gen_runarray54(stack *Stack)
{
realarray * b=vm::pop<realarray *>(Stack);
realarray2 * a=vm::pop<realarray2 *>(Stack);
-#line 1260 "runarray.in"
+#line 1278 "runarray.in"
size_t n=checkArray(a);
size_t m=checkArray(b);
array *c=new array(n);
@@ -1574,13 +1602,13 @@ void gen_runarray52(stack *Stack)
{Stack->push<realarray*>(c); return;}
}
-#line 1278 "runarray.in"
+#line 1296 "runarray.in"
// realarray* *(realarray *a, realarray2 *b);
-void gen_runarray53(stack *Stack)
+void gen_runarray55(stack *Stack)
{
realarray2 * b=vm::pop<realarray2 *>(Stack);
realarray * a=vm::pop<realarray *>(Stack);
-#line 1279 "runarray.in"
+#line 1297 "runarray.in"
size_t n=checkArray(a);
if(n != checkArray(b)) error(incommensurate);
real *A;
@@ -1608,53 +1636,53 @@ void gen_runarray53(stack *Stack)
{Stack->push<realarray*>(c); return;}
}
-#line 1307 "runarray.in"
+#line 1325 "runarray.in"
// Intarray2* *(Intarray2 *a, Intarray2 *b);
-void gen_runarray54(stack *Stack)
+void gen_runarray56(stack *Stack)
{
Intarray2 * b=vm::pop<Intarray2 *>(Stack);
Intarray2 * a=vm::pop<Intarray2 *>(Stack);
-#line 1308 "runarray.in"
+#line 1326 "runarray.in"
{Stack->push<Intarray2*>(mult<Int>(a,b)); return;}
}
-#line 1312 "runarray.in"
+#line 1330 "runarray.in"
// realarray2* *(realarray2 *a, realarray2 *b);
-void gen_runarray55(stack *Stack)
+void gen_runarray57(stack *Stack)
{
realarray2 * b=vm::pop<realarray2 *>(Stack);
realarray2 * a=vm::pop<realarray2 *>(Stack);
-#line 1313 "runarray.in"
+#line 1331 "runarray.in"
{Stack->push<realarray2*>(mult<real>(a,b)); return;}
}
-#line 1317 "runarray.in"
+#line 1335 "runarray.in"
// pairarray2* *(pairarray2 *a, pairarray2 *b);
-void gen_runarray56(stack *Stack)
+void gen_runarray58(stack *Stack)
{
pairarray2 * b=vm::pop<pairarray2 *>(Stack);
pairarray2 * a=vm::pop<pairarray2 *>(Stack);
-#line 1318 "runarray.in"
+#line 1336 "runarray.in"
{Stack->push<pairarray2*>(mult<pair>(a,b)); return;}
}
-#line 1322 "runarray.in"
+#line 1340 "runarray.in"
// triple *(realarray2 *t, triple v);
-void gen_runarray57(stack *Stack)
+void gen_runarray59(stack *Stack)
{
triple v=vm::pop<triple>(Stack);
realarray2 * t=vm::pop<realarray2 *>(Stack);
-#line 1323 "runarray.in"
+#line 1341 "runarray.in"
{Stack->push<triple>(*t*v); return;}
}
-#line 1327 "runarray.in"
+#line 1345 "runarray.in"
// pair project(triple v, realarray2 *t);
-void gen_runarray58(stack *Stack)
+void gen_runarray60(stack *Stack)
{
realarray2 * t=vm::pop<realarray2 *>(Stack);
triple v=vm::pop<triple>(Stack);
-#line 1328 "runarray.in"
+#line 1346 "runarray.in"
size_t n=checkArray(t);
if(n != 4) error(incommensurate);
array *t0=read<array*>(t,0);
@@ -1679,13 +1707,13 @@ void gen_runarray58(stack *Stack)
}
// Compute the dot product of vectors a and b.
-#line 1353 "runarray.in"
+#line 1371 "runarray.in"
// real dot(realarray *a, realarray *b);
-void gen_runarray59(stack *Stack)
+void gen_runarray61(stack *Stack)
{
realarray * b=vm::pop<realarray *>(Stack);
realarray * a=vm::pop<realarray *>(Stack);
-#line 1354 "runarray.in"
+#line 1372 "runarray.in"
size_t n=checkArrays(a,b);
real sum=0.0;
for(size_t i=0; i < n; ++i)
@@ -1694,13 +1722,13 @@ void gen_runarray59(stack *Stack)
}
// Compute the complex dot product of vectors a and b.
-#line 1363 "runarray.in"
+#line 1381 "runarray.in"
// pair dot(pairarray *a, pairarray *b);
-void gen_runarray60(stack *Stack)
+void gen_runarray62(stack *Stack)
{
pairarray * b=vm::pop<pairarray *>(Stack);
pairarray * a=vm::pop<pairarray *>(Stack);
-#line 1364 "runarray.in"
+#line 1382 "runarray.in"
size_t n=checkArrays(a,b);
pair sum=zero;
for(size_t i=0; i < n; ++i)
@@ -1715,15 +1743,15 @@ void gen_runarray60(stack *Stack)
// [ a[2] b[2] c[2] ]
// [ ... ]
// [ c[n-1] a[n-1] b[n-1] ]
-#line 1379 "runarray.in"
+#line 1397 "runarray.in"
// realarray* tridiagonal(realarray *a, realarray *b, realarray *c, realarray *f);
-void gen_runarray61(stack *Stack)
+void gen_runarray63(stack *Stack)
{
realarray * f=vm::pop<realarray *>(Stack);
realarray * c=vm::pop<realarray *>(Stack);
realarray * b=vm::pop<realarray *>(Stack);
realarray * a=vm::pop<realarray *>(Stack);
-#line 1380 "runarray.in"
+#line 1398 "runarray.in"
size_t n=checkArrays(a,b);
checkEqual(n,checkArray(c));
checkEqual(n,checkArray(f));
@@ -1820,16 +1848,16 @@ void gen_runarray61(stack *Stack)
}
// Root solve by Newton-Raphson
-#line 1477 "runarray.in"
+#line 1495 "runarray.in"
// real newton(Int iterations=100, callableReal *f, callableReal *fprime, real x, bool verbose=false);
-void gen_runarray62(stack *Stack)
+void gen_runarray64(stack *Stack)
{
bool verbose=vm::pop<bool>(Stack,false);
real x=vm::pop<real>(Stack);
callableReal * fprime=vm::pop<callableReal *>(Stack);
callableReal * f=vm::pop<callableReal *>(Stack);
Int iterations=vm::pop<Int>(Stack,100);
-#line 1479 "runarray.in"
+#line 1497 "runarray.in"
static const real fuzz=1000.0*DBL_EPSILON;
Int i=0;
size_t oldPrec=0;
@@ -1875,9 +1903,9 @@ void gen_runarray62(stack *Stack)
// Root solve by Newton-Raphson bisection
// cf. routine rtsafe (Press et al., Numerical Recipes, 1991).
-#line 1525 "runarray.in"
+#line 1543 "runarray.in"
// real newton(Int iterations=100, callableReal *f, callableReal *fprime, real x1, real x2, bool verbose=false);
-void gen_runarray63(stack *Stack)
+void gen_runarray65(stack *Stack)
{
bool verbose=vm::pop<bool>(Stack,false);
real x2=vm::pop<real>(Stack);
@@ -1885,7 +1913,7 @@ void gen_runarray63(stack *Stack)
callableReal * fprime=vm::pop<callableReal *>(Stack);
callableReal * f=vm::pop<callableReal *>(Stack);
Int iterations=vm::pop<Int>(Stack,100);
-#line 1527 "runarray.in"
+#line 1545 "runarray.in"
static const real fuzz=1000.0*DBL_EPSILON;
size_t oldPrec=0;
if(verbose)
@@ -1963,16 +1991,16 @@ void gen_runarray63(stack *Stack)
{Stack->push<real>((j == iterations) ? DBL_MAX : x); return;}
}
-#line 1605 "runarray.in"
+#line 1623 "runarray.in"
// real simpson(callableReal *f, real a, real b, real acc=DBL_EPSILON, real dxmax=0);
-void gen_runarray64(stack *Stack)
+void gen_runarray66(stack *Stack)
{
real dxmax=vm::pop<real>(Stack,0);
real acc=vm::pop<real>(Stack,DBL_EPSILON);
real b=vm::pop<real>(Stack);
real a=vm::pop<real>(Stack);
callableReal * f=vm::pop<callableReal *>(Stack);
-#line 1607 "runarray.in"
+#line 1625 "runarray.in"
real integral;
if(dxmax <= 0) dxmax=fabs(b-a);
Func=f;
@@ -1983,13 +2011,13 @@ void gen_runarray64(stack *Stack)
}
// Compute the fast Fourier transform of a pair array
-#line 1618 "runarray.in"
+#line 1636 "runarray.in"
// pairarray* fft(pairarray *a, Int sign=1);
-void gen_runarray65(stack *Stack)
+void gen_runarray67(stack *Stack)
{
Int sign=vm::pop<Int>(Stack,1);
pairarray * a=vm::pop<pairarray *>(Stack);
-#line 1619 "runarray.in"
+#line 1637 "runarray.in"
unsigned n=(unsigned) checkArray(a);
#ifdef HAVE_LIBFFTW3
array *c=new array(n);
@@ -2018,12 +2046,12 @@ void gen_runarray65(stack *Stack)
{Stack->push<pairarray*>(c); return;}
}
-#line 1648 "runarray.in"
+#line 1666 "runarray.in"
// Intarray2* triangulate(pairarray *z);
-void gen_runarray66(stack *Stack)
+void gen_runarray68(stack *Stack)
{
pairarray * z=vm::pop<pairarray *>(Stack);
-#line 1649 "runarray.in"
+#line 1667 "runarray.in"
size_t nv=checkArray(z);
// Call robust version of Gilles Dumoulin's port of Paul Bourke's
// triangulation code.
@@ -2057,12 +2085,12 @@ void gen_runarray66(stack *Stack)
{Stack->push<Intarray2*>(t); return;}
}
-#line 1683 "runarray.in"
+#line 1701 "runarray.in"
// real norm(realarray *a);
-void gen_runarray67(stack *Stack)
+void gen_runarray69(stack *Stack)
{
realarray * a=vm::pop<realarray *>(Stack);
-#line 1684 "runarray.in"
+#line 1702 "runarray.in"
size_t n=checkArray(a);
real M=0.0;
for(size_t i=0; i < n; ++i) {
@@ -2072,12 +2100,12 @@ void gen_runarray67(stack *Stack)
{Stack->push<real>(M); return;}
}
-#line 1694 "runarray.in"
+#line 1712 "runarray.in"
// real norm(realarray2 *a);
-void gen_runarray68(stack *Stack)
+void gen_runarray70(stack *Stack)
{
realarray2 * a=vm::pop<realarray2 *>(Stack);
-#line 1695 "runarray.in"
+#line 1713 "runarray.in"
size_t n=checkArray(a);
real M=0.0;
for(size_t i=0; i < n; ++i) {
@@ -2091,12 +2119,12 @@ void gen_runarray68(stack *Stack)
{Stack->push<real>(M); return;}
}
-#line 1709 "runarray.in"
+#line 1727 "runarray.in"
// real norm(triplearray2 *a);
-void gen_runarray69(stack *Stack)
+void gen_runarray71(stack *Stack)
{
triplearray2 * a=vm::pop<triplearray2 *>(Stack);
-#line 1710 "runarray.in"
+#line 1728 "runarray.in"
size_t n=checkArray(a);
real M=0.0;
for(size_t i=0; i < n; ++i) {
@@ -2110,12 +2138,12 @@ void gen_runarray69(stack *Stack)
{Stack->push<real>(sqrt(M)); return;}
}
-#line 1724 "runarray.in"
+#line 1742 "runarray.in"
// real change2(triplearray2 *a);
-void gen_runarray70(stack *Stack)
+void gen_runarray72(stack *Stack)
{
triplearray2 * a=vm::pop<triplearray2 *>(Stack);
-#line 1725 "runarray.in"
+#line 1743 "runarray.in"
size_t n=checkArray(a);
if(n == 0) {Stack->push<real>(0.0); return;}
@@ -2136,13 +2164,13 @@ void gen_runarray70(stack *Stack)
{Stack->push<real>(M); return;}
}
-#line 1746 "runarray.in"
+#line 1764 "runarray.in"
// triple minbezier(triplearray2 *P, triple b);
-void gen_runarray71(stack *Stack)
+void gen_runarray73(stack *Stack)
{
triple b=vm::pop<triple>(Stack);
triplearray2 * P=vm::pop<triplearray2 *>(Stack);
-#line 1747 "runarray.in"
+#line 1765 "runarray.in"
real *A=copyTripleArray2Components(P,true,4);
b=triple(bound(A,::min,b.getx(),sqrtFuzz*norm(A,16)),
bound(A+16,::min,b.gety(),sqrtFuzz*norm(A+16,16)),
@@ -2151,13 +2179,13 @@ void gen_runarray71(stack *Stack)
{Stack->push<triple>(b); return;}
}
-#line 1756 "runarray.in"
+#line 1774 "runarray.in"
// triple maxbezier(triplearray2 *P, triple b);
-void gen_runarray72(stack *Stack)
+void gen_runarray74(stack *Stack)
{
triple b=vm::pop<triple>(Stack);
triplearray2 * P=vm::pop<triplearray2 *>(Stack);
-#line 1757 "runarray.in"
+#line 1775 "runarray.in"
real *A=copyTripleArray2Components(P,true,4);
b=triple(bound(A,::max,b.getx(),sqrtFuzz*norm(A,16)),
bound(A+16,::max,b.gety(),sqrtFuzz*norm(A+16,16)),
@@ -2166,13 +2194,13 @@ void gen_runarray72(stack *Stack)
{Stack->push<triple>(b); return;}
}
-#line 1766 "runarray.in"
+#line 1784 "runarray.in"
// pair minratio(triplearray2 *P, pair b);
-void gen_runarray73(stack *Stack)
+void gen_runarray75(stack *Stack)
{
pair b=vm::pop<pair>(Stack);
triplearray2 * P=vm::pop<triplearray2 *>(Stack);
-#line 1767 "runarray.in"
+#line 1785 "runarray.in"
triple *A;
copyArray2C(A,P,true,4);
real fuzz=sqrtFuzz*norm(A,16);
@@ -2182,13 +2210,13 @@ void gen_runarray73(stack *Stack)
{Stack->push<pair>(b); return;}
}
-#line 1777 "runarray.in"
+#line 1795 "runarray.in"
// pair maxratio(triplearray2 *P, pair b);
-void gen_runarray74(stack *Stack)
+void gen_runarray76(stack *Stack)
{
pair b=vm::pop<pair>(Stack);
triplearray2 * P=vm::pop<triplearray2 *>(Stack);
-#line 1778 "runarray.in"
+#line 1796 "runarray.in"
triple *A;
copyArray2C(A,P,true,4);
real fuzz=sqrtFuzz*norm(A,16);
@@ -2198,11 +2226,11 @@ void gen_runarray74(stack *Stack)
{Stack->push<pair>(b); return;}
}
-#line 1788 "runarray.in"
+#line 1806 "runarray.in"
// realarray* _projection();
-void gen_runarray75(stack *Stack)
+void gen_runarray77(stack *Stack)
{
-#line 1789 "runarray.in"
+#line 1807 "runarray.in"
#ifdef HAVE_GL
array *a=new array(14);
gl::projection P=gl::camera();
@@ -2239,158 +2267,162 @@ namespace trans {
void gen_runarray_venv(venv &ve)
{
-#line 443 "runarray.in"
+#line 450 "runarray.in"
REGISTER_BLTIN(run::emptyArray,"emptyArray");
-#line 449 "runarray.in"
+#line 456 "runarray.in"
REGISTER_BLTIN(run::newDeepArray,"newDeepArray");
-#line 471 "runarray.in"
+#line 478 "runarray.in"
REGISTER_BLTIN(run::newInitializedArray,"newInitializedArray");
-#line 486 "runarray.in"
+#line 493 "runarray.in"
REGISTER_BLTIN(run::newAppendedArray,"newAppendedArray");
-#line 502 "runarray.in"
- REGISTER_BLTIN(run::newDuplicateArray,"newDuplicateArray");
-#line 512 "runarray.in"
+#line 509 "runarray.in"
+ REGISTER_BLTIN(run::copyArray0,"copyArray0");
+#line 516 "runarray.in"
+ REGISTER_BLTIN(run::copyArray1,"copyArray1");
+#line 523 "runarray.in"
+ REGISTER_BLTIN(run::copyArray2,"copyArray2");
+#line 530 "runarray.in"
REGISTER_BLTIN(run::arrayRead,"arrayRead");
-#line 524 "runarray.in"
+#line 542 "runarray.in"
REGISTER_BLTIN(run::arraySliceRead,"arraySliceRead");
-#line 531 "runarray.in"
+#line 549 "runarray.in"
REGISTER_BLTIN(run::arraySliceReadToEnd,"arraySliceReadToEnd");
-#line 539 "runarray.in"
+#line 557 "runarray.in"
REGISTER_BLTIN(run::arrayArrayRead,"arrayArrayRead");
-#line 548 "runarray.in"
+#line 566 "runarray.in"
REGISTER_BLTIN(run::arrayWrite,"arrayWrite");
-#line 564 "runarray.in"
+#line 582 "runarray.in"
REGISTER_BLTIN(run::arraySliceWrite,"arraySliceWrite");
-#line 572 "runarray.in"
+#line 590 "runarray.in"
REGISTER_BLTIN(run::arraySliceWriteToEnd,"arraySliceWriteToEnd");
-#line 580 "runarray.in"
+#line 598 "runarray.in"
REGISTER_BLTIN(run::arrayLength,"arrayLength");
-#line 586 "runarray.in"
+#line 604 "runarray.in"
REGISTER_BLTIN(run::arrayKeys,"arrayKeys");
-#line 601 "runarray.in"
+#line 619 "runarray.in"
REGISTER_BLTIN(run::arrayCyclicFlag,"arrayCyclicFlag");
-#line 608 "runarray.in"
+#line 626 "runarray.in"
REGISTER_BLTIN(run::arraySetCyclicFlag,"arraySetCyclicFlag");
-#line 615 "runarray.in"
+#line 633 "runarray.in"
REGISTER_BLTIN(run::arrayInitializedHelper,"arrayInitializedHelper");
-#line 626 "runarray.in"
+#line 644 "runarray.in"
REGISTER_BLTIN(run::arrayInitialized,"arrayInitialized");
-#line 632 "runarray.in"
+#line 650 "runarray.in"
REGISTER_BLTIN(run::arrayCyclicHelper,"arrayCyclicHelper");
-#line 639 "runarray.in"
+#line 657 "runarray.in"
REGISTER_BLTIN(run::arrayCyclic,"arrayCyclic");
-#line 645 "runarray.in"
+#line 663 "runarray.in"
REGISTER_BLTIN(run::arrayPushHelper,"arrayPushHelper");
-#line 653 "runarray.in"
+#line 671 "runarray.in"
REGISTER_BLTIN(run::arrayPush,"arrayPush");
-#line 659 "runarray.in"
+#line 677 "runarray.in"
REGISTER_BLTIN(run::arrayAppendHelper,"arrayAppendHelper");
-#line 668 "runarray.in"
+#line 686 "runarray.in"
REGISTER_BLTIN(run::arrayAppend,"arrayAppend");
-#line 674 "runarray.in"
+#line 692 "runarray.in"
REGISTER_BLTIN(run::arrayPopHelper,"arrayPopHelper");
-#line 683 "runarray.in"
+#line 701 "runarray.in"
REGISTER_BLTIN(run::arrayPop,"arrayPop");
-#line 689 "runarray.in"
+#line 707 "runarray.in"
REGISTER_BLTIN(run::arrayInsertHelper,"arrayInsertHelper");
-#line 700 "runarray.in"
+#line 718 "runarray.in"
REGISTER_BLTIN(run::arrayInsert,"arrayInsert");
-#line 706 "runarray.in"
+#line 724 "runarray.in"
REGISTER_BLTIN(run::arrayDelete,"arrayDelete");
-#line 712 "runarray.in"
+#line 730 "runarray.in"
REGISTER_BLTIN(run::arrayAlias,"arrayAlias");
-#line 717 "runarray.in"
- REGISTER_BLTIN(run::arrayIntArray,"arrayIntArray");
#line 735 "runarray.in"
- addFunc(ve, run::gen_runarray31, IntArray(), SYM(complement), formal(IntArray(), SYM(a), false, false), formal(primInt(), SYM(n), false, false));
-#line 754 "runarray.in"
+ REGISTER_BLTIN(run::arrayIntArray,"arrayIntArray");
+#line 753 "runarray.in"
+ addFunc(ve, run::gen_runarray33, IntArray(), SYM(complement), formal(IntArray(), SYM(a), false, false), formal(primInt(), SYM(n), false, false));
+#line 772 "runarray.in"
REGISTER_BLTIN(run::arraySequence,"arraySequence");
-#line 767 "runarray.in"
- addFunc(ve, run::gen_runarray33, IntArray(), SYM(sequence), formal(primInt(), SYM(n), false, false));
-#line 778 "runarray.in"
+#line 785 "runarray.in"
+ addFunc(ve, run::gen_runarray35, IntArray(), SYM(sequence), formal(primInt(), SYM(n), false, false));
+#line 796 "runarray.in"
REGISTER_BLTIN(run::arrayFunction,"arrayFunction");
-#line 791 "runarray.in"
- REGISTER_BLTIN(run::arraySort,"arraySort");
-#line 800 "runarray.in"
- addFunc(ve, run::gen_runarray36, primBoolean(), SYM(all), formal(booleanArray(), SYM(a), false, false));
#line 809 "runarray.in"
- addFunc(ve, run::gen_runarray37, booleanArray(), SYM_LOGNOT, formal(booleanArray(), SYM(a), false, false));
+ REGISTER_BLTIN(run::arraySort,"arraySort");
#line 818 "runarray.in"
- addFunc(ve, run::gen_runarray38, primInt(), SYM(sum), formal(booleanArray(), SYM(a), false, false));
+ addFunc(ve, run::gen_runarray38, primBoolean(), SYM(all), formal(booleanArray(), SYM(a), false, false));
#line 827 "runarray.in"
+ addFunc(ve, run::gen_runarray39, booleanArray(), SYM_LOGNOT, formal(booleanArray(), SYM(a), false, false));
+#line 836 "runarray.in"
+ addFunc(ve, run::gen_runarray40, primInt(), SYM(sum), formal(booleanArray(), SYM(a), false, false));
+#line 845 "runarray.in"
REGISTER_BLTIN(run::arrayCopy,"arrayCopy");
-#line 832 "runarray.in"
+#line 850 "runarray.in"
REGISTER_BLTIN(run::arrayConcat,"arrayConcat");
-#line 860 "runarray.in"
+#line 878 "runarray.in"
REGISTER_BLTIN(run::array2Copy,"array2Copy");
-#line 865 "runarray.in"
+#line 883 "runarray.in"
REGISTER_BLTIN(run::array3Copy,"array3Copy");
-#line 870 "runarray.in"
+#line 888 "runarray.in"
REGISTER_BLTIN(run::array2Transpose,"array2Transpose");
-#line 894 "runarray.in"
+#line 912 "runarray.in"
REGISTER_BLTIN(run::array3Transpose,"array3Transpose");
-#line 981 "runarray.in"
- addFunc(ve, run::gen_runarray45, primInt(), SYM(find), formal(booleanArray(), SYM(a), false, false), formal(primInt(), SYM(n), true, false));
-#line 1000 "runarray.in"
+#line 999 "runarray.in"
+ addFunc(ve, run::gen_runarray47, primInt(), SYM(find), formal(booleanArray(), SYM(a), false, false), formal(primInt(), SYM(n), true, false));
+#line 1018 "runarray.in"
REGISTER_BLTIN(run::arrayConditional,"arrayConditional");
-#line 1026 "runarray.in"
- addFunc(ve, run::gen_runarray47, realArray2(), SYM(identity), formal(primInt(), SYM(n), false, false));
-#line 1032 "runarray.in"
- addFunc(ve, run::gen_runarray48, realArray2(), SYM(inverse), formal(realArray2(), SYM(a), false, false));
-#line 1124 "runarray.in"
- addFunc(ve, run::gen_runarray49, realArray(), SYM(solve), formal(realArray2(), SYM(a), false, false), formal(realArray(), SYM(b), false, false), formal(primBoolean(), SYM(warn), true, false));
-#line 1177 "runarray.in"
- addFunc(ve, run::gen_runarray50, realArray2(), SYM(solve), formal(realArray2(), SYM(a), false, false), formal(realArray2(), SYM(b), false, false), formal(primBoolean(), SYM(warn), true, false));
-#line 1242 "runarray.in"
- addFunc(ve, run::gen_runarray51, primReal(), SYM(determinant), formal(realArray2(), SYM(a), false, false));
-#line 1259 "runarray.in"
- addFunc(ve, run::gen_runarray52, realArray(), SYM_TIMES, formal(realArray2(), SYM(a), false, false), formal(realArray(), SYM(b), false, false));
-#line 1278 "runarray.in"
- addFunc(ve, run::gen_runarray53, realArray(), SYM_TIMES, formal(realArray(), SYM(a), false, false), formal(realArray2(), SYM(b), false, false));
-#line 1307 "runarray.in"
- addFunc(ve, run::gen_runarray54, IntArray2(), SYM_TIMES, formal(IntArray2(), SYM(a), false, false), formal(IntArray2(), SYM(b), false, false));
-#line 1312 "runarray.in"
- addFunc(ve, run::gen_runarray55, realArray2(), SYM_TIMES, formal(realArray2(), SYM(a), false, false), formal(realArray2(), SYM(b), false, false));
-#line 1317 "runarray.in"
- addFunc(ve, run::gen_runarray56, pairArray2(), SYM_TIMES, formal(pairArray2(), SYM(a), false, false), formal(pairArray2(), SYM(b), false, false));
-#line 1322 "runarray.in"
- addFunc(ve, run::gen_runarray57, primTriple(), SYM_TIMES, formal(realArray2(), SYM(t), false, false), formal(primTriple(), SYM(v), false, false));
-#line 1327 "runarray.in"
- addFunc(ve, run::gen_runarray58, primPair(), SYM(project), formal(primTriple(), SYM(v), false, false), formal(realArray2(), SYM(t), false, false));
-#line 1352 "runarray.in"
- addFunc(ve, run::gen_runarray59, primReal(), SYM(dot), formal(realArray(), SYM(a), false, false), formal(realArray(), SYM(b), false, false));
-#line 1362 "runarray.in"
- addFunc(ve, run::gen_runarray60, primPair(), SYM(dot), formal(pairArray(), SYM(a), false, false), formal(pairArray(), SYM(b), false, false));
-#line 1372 "runarray.in"
- addFunc(ve, run::gen_runarray61, realArray(), SYM(tridiagonal), formal(realArray(), SYM(a), false, false), formal(realArray(), SYM(b), false, false), formal(realArray(), SYM(c), false, false), formal(realArray(), SYM(f), false, false));
-#line 1476 "runarray.in"
- addFunc(ve, run::gen_runarray62, primReal(), SYM(newton), formal(primInt(), SYM(iterations), true, false), formal(realRealFunction(), SYM(f), false, false), formal(realRealFunction(), SYM(fprime), false, false), formal(primReal(), SYM(x), false, false), formal(primBoolean(), SYM(verbose), true, false));
-#line 1523 "runarray.in"
- addFunc(ve, run::gen_runarray63, primReal(), SYM(newton), formal(primInt(), SYM(iterations), true, false), formal(realRealFunction(), SYM(f), false, false), formal(realRealFunction(), SYM(fprime), false, false), formal(primReal(), SYM(x1), false, false), formal(primReal(), SYM(x2), false, false), formal(primBoolean(), SYM(verbose), true, false));
-#line 1605 "runarray.in"
- addFunc(ve, run::gen_runarray64, primReal(), SYM(simpson), formal(realRealFunction(), SYM(f), false, false), formal(primReal(), SYM(a), false, false), formal(primReal(), SYM(b), false, false), formal(primReal(), SYM(acc), true, false), formal(primReal(), SYM(dxmax), true, false));
-#line 1617 "runarray.in"
- addFunc(ve, run::gen_runarray65, pairArray(), SYM(fft), formal(pairArray(), SYM(a), false, false), formal(primInt(), SYM(sign), true, false));
-#line 1648 "runarray.in"
- addFunc(ve, run::gen_runarray66, IntArray2(), SYM(triangulate), formal(pairArray(), SYM(z), false, false));
-#line 1683 "runarray.in"
- addFunc(ve, run::gen_runarray67, primReal(), SYM(norm), formal(realArray(), SYM(a), false, false));
-#line 1694 "runarray.in"
- addFunc(ve, run::gen_runarray68, primReal(), SYM(norm), formal(realArray2(), SYM(a), false, false));
-#line 1709 "runarray.in"
- addFunc(ve, run::gen_runarray69, primReal(), SYM(norm), formal(tripleArray2(), SYM(a), false, false));
-#line 1724 "runarray.in"
- addFunc(ve, run::gen_runarray70, primReal(), SYM(change2), formal(tripleArray2(), SYM(a), false, false));
-#line 1746 "runarray.in"
- addFunc(ve, run::gen_runarray71, primTriple(), SYM(minbezier), formal(tripleArray2(), SYM(p), false, false), formal(primTriple(), SYM(b), false, false));
-#line 1756 "runarray.in"
- addFunc(ve, run::gen_runarray72, primTriple(), SYM(maxbezier), formal(tripleArray2(), SYM(p), false, false), formal(primTriple(), SYM(b), false, false));
-#line 1766 "runarray.in"
- addFunc(ve, run::gen_runarray73, primPair(), SYM(minratio), formal(tripleArray2(), SYM(p), false, false), formal(primPair(), SYM(b), false, false));
-#line 1777 "runarray.in"
- addFunc(ve, run::gen_runarray74, primPair(), SYM(maxratio), formal(tripleArray2(), SYM(p), false, false), formal(primPair(), SYM(b), false, false));
-#line 1788 "runarray.in"
- addFunc(ve, run::gen_runarray75, realArray(), SYM(_projection));
+#line 1044 "runarray.in"
+ addFunc(ve, run::gen_runarray49, realArray2(), SYM(identity), formal(primInt(), SYM(n), false, false));
+#line 1050 "runarray.in"
+ addFunc(ve, run::gen_runarray50, realArray2(), SYM(inverse), formal(realArray2(), SYM(a), false, false));
+#line 1142 "runarray.in"
+ addFunc(ve, run::gen_runarray51, realArray(), SYM(solve), formal(realArray2(), SYM(a), false, false), formal(realArray(), SYM(b), false, false), formal(primBoolean(), SYM(warn), true, false));
+#line 1195 "runarray.in"
+ addFunc(ve, run::gen_runarray52, realArray2(), SYM(solve), formal(realArray2(), SYM(a), false, false), formal(realArray2(), SYM(b), false, false), formal(primBoolean(), SYM(warn), true, false));
+#line 1260 "runarray.in"
+ addFunc(ve, run::gen_runarray53, primReal(), SYM(determinant), formal(realArray2(), SYM(a), false, false));
+#line 1277 "runarray.in"
+ addFunc(ve, run::gen_runarray54, realArray(), SYM_TIMES, formal(realArray2(), SYM(a), false, false), formal(realArray(), SYM(b), false, false));
+#line 1296 "runarray.in"
+ addFunc(ve, run::gen_runarray55, realArray(), SYM_TIMES, formal(realArray(), SYM(a), false, false), formal(realArray2(), SYM(b), false, false));
+#line 1325 "runarray.in"
+ addFunc(ve, run::gen_runarray56, IntArray2(), SYM_TIMES, formal(IntArray2(), SYM(a), false, false), formal(IntArray2(), SYM(b), false, false));
+#line 1330 "runarray.in"
+ addFunc(ve, run::gen_runarray57, realArray2(), SYM_TIMES, formal(realArray2(), SYM(a), false, false), formal(realArray2(), SYM(b), false, false));
+#line 1335 "runarray.in"
+ addFunc(ve, run::gen_runarray58, pairArray2(), SYM_TIMES, formal(pairArray2(), SYM(a), false, false), formal(pairArray2(), SYM(b), false, false));
+#line 1340 "runarray.in"
+ addFunc(ve, run::gen_runarray59, primTriple(), SYM_TIMES, formal(realArray2(), SYM(t), false, false), formal(primTriple(), SYM(v), false, false));
+#line 1345 "runarray.in"
+ addFunc(ve, run::gen_runarray60, primPair(), SYM(project), formal(primTriple(), SYM(v), false, false), formal(realArray2(), SYM(t), false, false));
+#line 1370 "runarray.in"
+ addFunc(ve, run::gen_runarray61, primReal(), SYM(dot), formal(realArray(), SYM(a), false, false), formal(realArray(), SYM(b), false, false));
+#line 1380 "runarray.in"
+ addFunc(ve, run::gen_runarray62, primPair(), SYM(dot), formal(pairArray(), SYM(a), false, false), formal(pairArray(), SYM(b), false, false));
+#line 1390 "runarray.in"
+ addFunc(ve, run::gen_runarray63, realArray(), SYM(tridiagonal), formal(realArray(), SYM(a), false, false), formal(realArray(), SYM(b), false, false), formal(realArray(), SYM(c), false, false), formal(realArray(), SYM(f), false, false));
+#line 1494 "runarray.in"
+ addFunc(ve, run::gen_runarray64, primReal(), SYM(newton), formal(primInt(), SYM(iterations), true, false), formal(realRealFunction(), SYM(f), false, false), formal(realRealFunction(), SYM(fprime), false, false), formal(primReal(), SYM(x), false, false), formal(primBoolean(), SYM(verbose), true, false));
+#line 1541 "runarray.in"
+ addFunc(ve, run::gen_runarray65, primReal(), SYM(newton), formal(primInt(), SYM(iterations), true, false), formal(realRealFunction(), SYM(f), false, false), formal(realRealFunction(), SYM(fprime), false, false), formal(primReal(), SYM(x1), false, false), formal(primReal(), SYM(x2), false, false), formal(primBoolean(), SYM(verbose), true, false));
+#line 1623 "runarray.in"
+ addFunc(ve, run::gen_runarray66, primReal(), SYM(simpson), formal(realRealFunction(), SYM(f), false, false), formal(primReal(), SYM(a), false, false), formal(primReal(), SYM(b), false, false), formal(primReal(), SYM(acc), true, false), formal(primReal(), SYM(dxmax), true, false));
+#line 1635 "runarray.in"
+ addFunc(ve, run::gen_runarray67, pairArray(), SYM(fft), formal(pairArray(), SYM(a), false, false), formal(primInt(), SYM(sign), true, false));
+#line 1666 "runarray.in"
+ addFunc(ve, run::gen_runarray68, IntArray2(), SYM(triangulate), formal(pairArray(), SYM(z), false, false));
+#line 1701 "runarray.in"
+ addFunc(ve, run::gen_runarray69, primReal(), SYM(norm), formal(realArray(), SYM(a), false, false));
+#line 1712 "runarray.in"
+ addFunc(ve, run::gen_runarray70, primReal(), SYM(norm), formal(realArray2(), SYM(a), false, false));
+#line 1727 "runarray.in"
+ addFunc(ve, run::gen_runarray71, primReal(), SYM(norm), formal(tripleArray2(), SYM(a), false, false));
+#line 1742 "runarray.in"
+ addFunc(ve, run::gen_runarray72, primReal(), SYM(change2), formal(tripleArray2(), SYM(a), false, false));
+#line 1764 "runarray.in"
+ addFunc(ve, run::gen_runarray73, primTriple(), SYM(minbezier), formal(tripleArray2(), SYM(p), false, false), formal(primTriple(), SYM(b), false, false));
+#line 1774 "runarray.in"
+ addFunc(ve, run::gen_runarray74, primTriple(), SYM(maxbezier), formal(tripleArray2(), SYM(p), false, false), formal(primTriple(), SYM(b), false, false));
+#line 1784 "runarray.in"
+ addFunc(ve, run::gen_runarray75, primPair(), SYM(minratio), formal(tripleArray2(), SYM(p), false, false), formal(primPair(), SYM(b), false, false));
+#line 1795 "runarray.in"
+ addFunc(ve, run::gen_runarray76, primPair(), SYM(maxratio), formal(tripleArray2(), SYM(p), false, false), formal(primPair(), SYM(b), false, false));
+#line 1806 "runarray.in"
+ addFunc(ve, run::gen_runarray77, realArray(), SYM(_projection));
}
} // namespace trans