### (0) Obligation:

JBC Problem based on JBC Program:
Manifest-Version: 1.0 Created-By: 1.6.0_16 (Sun Microsystems Inc.) Main-Class: BubbleSort
`class BubbleSort {    public static void main(String[] args) {	sort(new int[100]);    }    public static void sort(int[] x) {	int n = x.length;	for (int pass=1; pass < n; pass++)  // count how many times	    // This next loop becomes shorter and shorter	    for (int i=0; i < n - pass; i++)		if (x[i] > x[i+1]) {		    // exchange elements		    int temp = x[i]; x[i] = x[i+1];  x[i+1] = temp;		}    }}`

### (1) JBC2FIG (SOUND transformation)

Constructed FIGraph.

### (2) Obligation:

FIGraph based on JBC Program:
BubbleSort.main([Ljava/lang/String;)V: Graph of 170 nodes with 1 SCC.

### (3) FIGtoITRSProof (SOUND transformation)

Transformed FIGraph SCCs to IDPs. Logs:

Log for SCC 0:

Generated 58 rules for P and 102 rules for R.

Combined rules. Obtained 5 rules for P and 0 rules for R.

Filtered ground terms:

1729_1_main_InvokeMethod(x1, x2) → 1729_1_main_InvokeMethod(x1)
DATA_100(x1, x2, x3, x4, x5, x6, x7, x8, x9, x10, x11, x12, x13, x14, x15, x16, x17, x18, x19, x20, x21, x22, x23, x24, x25, x26, x27, x28, x29, x30, x31, x32, x33, x34, x35, x36, x37, x38, x39, x40, x41, x42, x43, x44, x45, x46, x47, x48, x49, x50, x51, x52, x53, x54, x55, x56, x57, x58, x59, x60, x61, x62, x63, x64, x65, x66, x67, x68, x69, x70, x71, x72, x73, x74, x75, x76, x77, x78, x79, x80, x81, x82, x83, x84, x85, x86, x87, x88, x89, x90, x91, x92, x93, x94, x95, x96, x97, x98, x99, x100) → DATA_100
ARRAY(x1, x2) → ARRAY
java.lang.Object(x1) → java.lang.Object
1729_0_sort_GE(x1, x2, x3, x4, x5, x6, x7) → 1729_0_sort_GE(x4, x5, x6, x7)
Cond_1810_1_main_InvokeMethod(x1, x2, x3) → Cond_1810_1_main_InvokeMethod(x1, x2)
1810_0_sort_LE(x1, x2, x3, x4, x5, x6, x7) → 1810_0_sort_LE(x4, x5, x6, x7)
1810_1_main_InvokeMethod(x1, x2) → 1810_1_main_InvokeMethod(x1)
Cond_1809_1_main_InvokeMethod(x1, x2, x3) → Cond_1809_1_main_InvokeMethod(x1, x2)
1809_0_sort_LE(x1, x2, x3, x4, x5, x6, x7) → 1809_0_sort_LE(x4, x5, x6, x7)
1809_1_main_InvokeMethod(x1, x2) → 1809_1_main_InvokeMethod(x1)
Cond_1729_1_main_InvokeMethod2(x1, x2, x3) → Cond_1729_1_main_InvokeMethod2(x1, x2)
Cond_1729_1_main_InvokeMethod1(x1, x2, x3) → Cond_1729_1_main_InvokeMethod1(x1, x2)
Cond_1729_1_main_InvokeMethod(x1, x2, x3) → Cond_1729_1_main_InvokeMethod(x1, x2)

Filtered duplicate args:

1729_0_sort_GE(x1, x2, x3, x4) → 1729_0_sort_GE(x1, x3, x4)

Combined rules. Obtained 5 rules for P and 0 rules for R.

Finished conversion. Obtained 5 rules for P and 0 rules for R. System has predefined symbols.

### (4) Obligation:

IDP problem:
The following function symbols are pre-defined:
 != ~ Neq: (Integer, Integer) -> Boolean * ~ Mul: (Integer, Integer) -> Integer >= ~ Ge: (Integer, Integer) -> Boolean -1 ~ UnaryMinus: (Integer) -> Integer | ~ Bwor: (Integer, Integer) -> Integer / ~ Div: (Integer, Integer) -> Integer = ~ Eq: (Integer, Integer) -> Boolean ~ Bwxor: (Integer, Integer) -> Integer || ~ Lor: (Boolean, Boolean) -> Boolean ! ~ Lnot: (Boolean) -> Boolean < ~ Lt: (Integer, Integer) -> Boolean - ~ Sub: (Integer, Integer) -> Integer <= ~ Le: (Integer, Integer) -> Boolean > ~ Gt: (Integer, Integer) -> Boolean ~ ~ Bwnot: (Integer) -> Integer % ~ Mod: (Integer, Integer) -> Integer & ~ Bwand: (Integer, Integer) -> Integer + ~ Add: (Integer, Integer) -> Integer && ~ Land: (Boolean, Boolean) -> Boolean

The following domains are used:

Boolean, Integer

R is empty.

The integer pair graph contains the following rules and edges:
(0): 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[0], x103[0], x104[0])) → COND_1729_1_MAIN_INVOKEMETHOD(x104[0] <= x103[0] && x102[0] > 0 && 100 > x102[0] + 1 && 0 < x102[0] + 1, 1729_0_sort_GE(x102[0], x103[0], x104[0]))
(1): COND_1729_1_MAIN_INVOKEMETHOD(TRUE, 1729_0_sort_GE(x102[1], x103[1], x104[1])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[1] + 1, 0, 100 - x102[1] + 1))
(2): 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2])) → COND_1729_1_MAIN_INVOKEMETHOD1(x104[2] > x103[2] && x103[2] >= 0 && x103[2] <= 99 && 99 >= x103[2] + 1 && 1 <= x103[2] + 1, 1729_0_sort_GE(x102[2], x103[2], x104[2]))
(3): COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3])) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))
(4): 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[4], x103[4], x104[4])) → COND_1729_1_MAIN_INVOKEMETHOD2(x104[4] > x103[4] && x103[4] >= 0 && x103[4] <= 99 && 99 >= x103[4] + 1 && 1 <= x103[4] + 1, 1729_0_sort_GE(x102[4], x103[4], x104[4]))
(5): COND_1729_1_MAIN_INVOKEMETHOD2(TRUE, 1729_0_sort_GE(x102[5], x103[5], x104[5])) → 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]))
(6): 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])) → COND_1809_1_MAIN_INVOKEMETHOD(x105[6] >= x104[6] && x103[6] >= 0 && x102[6] > 0, 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))
(7): COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], x103[7] + 1, 100 - x102[7]))
(8): 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8])) → COND_1810_1_MAIN_INVOKEMETHOD(x3[8] < x2[8] && x1[8] >= 0 && x1[8] <= 99 && x0[8] > 0 && 99 >= x1[8] + 1 && 1 <= x1[8] + 1, 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))
(9): COND_1810_1_MAIN_INVOKEMETHOD(TRUE, 1810_0_sort_LE(x0[9], x1[9], x2[9], x3[9])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], x1[9] + 1, 100 - x0[9]))

(0) -> (1), if ((x104[0] <= x103[0] && x102[0] > 0 && 100 > x102[0] + 1 && 0 < x102[0] + 1* TRUE)∧(1729_0_sort_GE(x102[0], x103[0], x104[0]) →* 1729_0_sort_GE(x102[1], x103[1], x104[1])))

(1) -> (0), if ((1729_0_sort_GE(x102[1] + 1, 0, 100 - x102[1] + 1) →* 1729_0_sort_GE(x102[0], x103[0], x104[0])))

(1) -> (2), if ((1729_0_sort_GE(x102[1] + 1, 0, 100 - x102[1] + 1) →* 1729_0_sort_GE(x102[2], x103[2], x104[2])))

(1) -> (4), if ((1729_0_sort_GE(x102[1] + 1, 0, 100 - x102[1] + 1) →* 1729_0_sort_GE(x102[4], x103[4], x104[4])))

(2) -> (3), if ((x104[2] > x103[2] && x103[2] >= 0 && x103[2] <= 99 && 99 >= x103[2] + 1 && 1 <= x103[2] + 1* TRUE)∧(1729_0_sort_GE(x102[2], x103[2], x104[2]) →* 1729_0_sort_GE(x102[3], x103[3], x104[3])))

(3) -> (6), if ((1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]) →* 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])))

(4) -> (5), if ((x104[4] > x103[4] && x103[4] >= 0 && x103[4] <= 99 && 99 >= x103[4] + 1 && 1 <= x103[4] + 1* TRUE)∧(1729_0_sort_GE(x102[4], x103[4], x104[4]) →* 1729_0_sort_GE(x102[5], x103[5], x104[5])))

(5) -> (8), if ((1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]) →* 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8])))

(6) -> (7), if ((x105[6] >= x104[6] && x103[6] >= 0 && x102[6] > 0* TRUE)∧(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]) →* 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])))

(7) -> (0), if ((1729_0_sort_GE(x102[7], x103[7] + 1, 100 - x102[7]) →* 1729_0_sort_GE(x102[0], x103[0], x104[0])))

(7) -> (2), if ((1729_0_sort_GE(x102[7], x103[7] + 1, 100 - x102[7]) →* 1729_0_sort_GE(x102[2], x103[2], x104[2])))

(7) -> (4), if ((1729_0_sort_GE(x102[7], x103[7] + 1, 100 - x102[7]) →* 1729_0_sort_GE(x102[4], x103[4], x104[4])))

(8) -> (9), if ((x3[8] < x2[8] && x1[8] >= 0 && x1[8] <= 99 && x0[8] > 0 && 99 >= x1[8] + 1 && 1 <= x1[8] + 1* TRUE)∧(1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]) →* 1810_0_sort_LE(x0[9], x1[9], x2[9], x3[9])))

(9) -> (0), if ((1729_0_sort_GE(x0[9], x1[9] + 1, 100 - x0[9]) →* 1729_0_sort_GE(x102[0], x103[0], x104[0])))

(9) -> (2), if ((1729_0_sort_GE(x0[9], x1[9] + 1, 100 - x0[9]) →* 1729_0_sort_GE(x102[2], x103[2], x104[2])))

(9) -> (4), if ((1729_0_sort_GE(x0[9], x1[9] + 1, 100 - x0[9]) →* 1729_0_sort_GE(x102[4], x103[4], x104[4])))

The set Q is empty.

### (5) IDPNonInfProof (SOUND transformation)

The constraints were generated the following way:
The DP Problem is simplified using the Induction Calculus [NONINF] with the following steps:
Note that final constraints are written in bold face.

For Pair 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102, x103, x104)) → COND_1729_1_MAIN_INVOKEMETHOD(&&(&&(&&(<=(x104, x103), >(x102, 0)), >(100, +(x102, 1))), <(0, +(x102, 1))), 1729_0_sort_GE(x102, x103, x104)) the following chains were created:
• We consider the chain 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[0], x103[0], x104[0])) → COND_1729_1_MAIN_INVOKEMETHOD(&&(&&(&&(<=(x104[0], x103[0]), >(x102[0], 0)), >(100, +(x102[0], 1))), <(0, +(x102[0], 1))), 1729_0_sort_GE(x102[0], x103[0], x104[0])), COND_1729_1_MAIN_INVOKEMETHOD(TRUE, 1729_0_sort_GE(x102[1], x103[1], x104[1])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(+(x102[1], 1), 0, -(100, +(x102[1], 1)))) which results in the following constraint:

(1)    (&&(&&(&&(<=(x104[0], x103[0]), >(x102[0], 0)), >(100, +(x102[0], 1))), <(0, +(x102[0], 1)))=TRUE1729_0_sort_GE(x102[0], x103[0], x104[0])=1729_0_sort_GE(x102[1], x103[1], x104[1]) ⇒ 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[0], x103[0], x104[0]))≥NonInfC∧1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[0], x103[0], x104[0]))≥COND_1729_1_MAIN_INVOKEMETHOD(&&(&&(&&(<=(x104[0], x103[0]), >(x102[0], 0)), >(100, +(x102[0], 1))), <(0, +(x102[0], 1))), 1729_0_sort_GE(x102[0], x103[0], x104[0]))∧(UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD(&&(&&(&&(<=(x104[0], x103[0]), >(x102[0], 0)), >(100, +(x102[0], 1))), <(0, +(x102[0], 1))), 1729_0_sort_GE(x102[0], x103[0], x104[0]))), ≥))

We simplified constraint (1) using rules (I), (II), (IV), (IDP_BOOLEAN) which results in the following new constraint:

(2)    (<(0, +(x102[0], 1))=TRUE>(100, +(x102[0], 1))=TRUE<=(x104[0], x103[0])=TRUE>(x102[0], 0)=TRUE1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[0], x103[0], x104[0]))≥NonInfC∧1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[0], x103[0], x104[0]))≥COND_1729_1_MAIN_INVOKEMETHOD(&&(&&(&&(<=(x104[0], x103[0]), >(x102[0], 0)), >(100, +(x102[0], 1))), <(0, +(x102[0], 1))), 1729_0_sort_GE(x102[0], x103[0], x104[0]))∧(UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD(&&(&&(&&(<=(x104[0], x103[0]), >(x102[0], 0)), >(100, +(x102[0], 1))), <(0, +(x102[0], 1))), 1729_0_sort_GE(x102[0], x103[0], x104[0]))), ≥))

We simplified constraint (2) using rule (POLY_CONSTRAINTS) which results in the following new constraint:

(3)    (x102[0] ≥ 0∧[98] + [-1]x102[0] ≥ 0∧x103[0] + [-1]x104[0] ≥ 0∧x102[0] + [-1] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD(&&(&&(&&(<=(x104[0], x103[0]), >(x102[0], 0)), >(100, +(x102[0], 1))), <(0, +(x102[0], 1))), 1729_0_sort_GE(x102[0], x103[0], x104[0]))), ≥)∧[(-1)Bound*bni_38] + [(-1)bni_38]x102[0] ≥ 0∧[(-1)bso_39] ≥ 0)

We simplified constraint (3) using rule (IDP_POLY_SIMPLIFY) which results in the following new constraint:

(4)    (x102[0] ≥ 0∧[98] + [-1]x102[0] ≥ 0∧x103[0] + [-1]x104[0] ≥ 0∧x102[0] + [-1] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD(&&(&&(&&(<=(x104[0], x103[0]), >(x102[0], 0)), >(100, +(x102[0], 1))), <(0, +(x102[0], 1))), 1729_0_sort_GE(x102[0], x103[0], x104[0]))), ≥)∧[(-1)Bound*bni_38] + [(-1)bni_38]x102[0] ≥ 0∧[(-1)bso_39] ≥ 0)

We simplified constraint (4) using rule (POLY_REMOVE_MIN_MAX) which results in the following new constraint:

(5)    (x102[0] ≥ 0∧[98] + [-1]x102[0] ≥ 0∧x103[0] + [-1]x104[0] ≥ 0∧x102[0] + [-1] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD(&&(&&(&&(<=(x104[0], x103[0]), >(x102[0], 0)), >(100, +(x102[0], 1))), <(0, +(x102[0], 1))), 1729_0_sort_GE(x102[0], x103[0], x104[0]))), ≥)∧[(-1)Bound*bni_38] + [(-1)bni_38]x102[0] ≥ 0∧[(-1)bso_39] ≥ 0)

We simplified constraint (5) using rule (IDP_SMT_SPLIT) which results in the following new constraint:

(6)    ([1] + x102[0] ≥ 0∧[97] + [-1]x102[0] ≥ 0∧x103[0] + [-1]x104[0] ≥ 0∧x102[0] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD(&&(&&(&&(<=(x104[0], x103[0]), >(x102[0], 0)), >(100, +(x102[0], 1))), <(0, +(x102[0], 1))), 1729_0_sort_GE(x102[0], x103[0], x104[0]))), ≥)∧[(-1)Bound*bni_38 + (-1)bni_38] + [(-1)bni_38]x102[0] ≥ 0∧[(-1)bso_39] ≥ 0)

We simplified constraint (6) using rule (IDP_SMT_SPLIT) which results in the following new constraint:

(7)    ([1] + x102[0] ≥ 0∧[97] + [-1]x102[0] ≥ 0∧x103[0] ≥ 0∧x102[0] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD(&&(&&(&&(<=(x104[0], x103[0]), >(x102[0], 0)), >(100, +(x102[0], 1))), <(0, +(x102[0], 1))), 1729_0_sort_GE(x102[0], x103[0], x104[0]))), ≥)∧[(-1)Bound*bni_38 + (-1)bni_38] + [(-1)bni_38]x102[0] ≥ 0∧[(-1)bso_39] ≥ 0)

We simplified constraint (7) using rule (IDP_SMT_SPLIT) which results in the following new constraints:

(8)    ([1] + x102[0] ≥ 0∧[97] + [-1]x102[0] ≥ 0∧x103[0] ≥ 0∧x102[0] ≥ 0∧x104[0] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD(&&(&&(&&(<=(x104[0], x103[0]), >(x102[0], 0)), >(100, +(x102[0], 1))), <(0, +(x102[0], 1))), 1729_0_sort_GE(x102[0], x103[0], x104[0]))), ≥)∧[(-1)Bound*bni_38 + (-1)bni_38] + [(-1)bni_38]x102[0] ≥ 0∧[(-1)bso_39] ≥ 0)

(9)    ([1] + x102[0] ≥ 0∧[97] + [-1]x102[0] ≥ 0∧x103[0] ≥ 0∧x102[0] ≥ 0∧x104[0] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD(&&(&&(&&(<=(x104[0], x103[0]), >(x102[0], 0)), >(100, +(x102[0], 1))), <(0, +(x102[0], 1))), 1729_0_sort_GE(x102[0], x103[0], x104[0]))), ≥)∧[(-1)Bound*bni_38 + (-1)bni_38] + [(-1)bni_38]x102[0] ≥ 0∧[(-1)bso_39] ≥ 0)

For Pair COND_1729_1_MAIN_INVOKEMETHOD(TRUE, 1729_0_sort_GE(x102, x103, x104)) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(+(x102, 1), 0, -(100, +(x102, 1)))) the following chains were created:
• We consider the chain COND_1729_1_MAIN_INVOKEMETHOD(TRUE, 1729_0_sort_GE(x102[1], x103[1], x104[1])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(+(x102[1], 1), 0, -(100, +(x102[1], 1)))) which results in the following constraint:

(10)    (COND_1729_1_MAIN_INVOKEMETHOD(TRUE, 1729_0_sort_GE(x102[1], x103[1], x104[1]))≥NonInfC∧COND_1729_1_MAIN_INVOKEMETHOD(TRUE, 1729_0_sort_GE(x102[1], x103[1], x104[1]))≥1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(+(x102[1], 1), 0, -(100, +(x102[1], 1))))∧(UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(+(x102[1], 1), 0, -(100, +(x102[1], 1))))), ≥))

We simplified constraint (10) using rule (POLY_CONSTRAINTS) which results in the following new constraint:

(11)    ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(+(x102[1], 1), 0, -(100, +(x102[1], 1))))), ≥)∧[1 + (-1)bso_41] ≥ 0)

We simplified constraint (11) using rule (IDP_POLY_SIMPLIFY) which results in the following new constraint:

(12)    ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(+(x102[1], 1), 0, -(100, +(x102[1], 1))))), ≥)∧[1 + (-1)bso_41] ≥ 0)

We simplified constraint (12) using rule (POLY_REMOVE_MIN_MAX) which results in the following new constraint:

(13)    ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(+(x102[1], 1), 0, -(100, +(x102[1], 1))))), ≥)∧[1 + (-1)bso_41] ≥ 0)

We simplified constraint (13) using rule (IDP_UNRESTRICTED_VARS) which results in the following new constraint:

(14)    ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(+(x102[1], 1), 0, -(100, +(x102[1], 1))))), ≥)∧0 = 0∧0 = 0∧0 = 0∧[1 + (-1)bso_41] ≥ 0)

For Pair 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102, x103, x104)) → COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104, x103), >=(x103, 0)), <=(x103, 99)), >=(99, +(x103, 1))), <=(1, +(x103, 1))), 1729_0_sort_GE(x102, x103, x104)) the following chains were created:
• We consider the chain 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2])) → COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2])), COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3])) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3])) which results in the following constraint:

(15)    (&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1)))=TRUE1729_0_sort_GE(x102[2], x103[2], x104[2])=1729_0_sort_GE(x102[3], x103[3], x104[3]) ⇒ 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2]))≥NonInfC∧1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2]))≥COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))∧(UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥))

We simplified constraint (15) using rules (I), (II), (IV), (IDP_BOOLEAN) which results in the following new constraint:

(16)    (<=(1, +(x103[2], 1))=TRUE>=(99, +(x103[2], 1))=TRUE<=(x103[2], 99)=TRUE>(x104[2], x103[2])=TRUE>=(x103[2], 0)=TRUE1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2]))≥NonInfC∧1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2]))≥COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))∧(UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥))

We simplified constraint (16) using rule (POLY_CONSTRAINTS) which results in the following new constraint:

(17)    (x103[2] ≥ 0∧[98] + [-1]x103[2] ≥ 0∧[99] + [-1]x103[2] ≥ 0∧x104[2] + [-1] + [-1]x103[2] ≥ 0∧x103[2] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥)∧[(-1)Bound*bni_42] + [(-1)bni_42]x102[2] ≥ 0∧[(-1)bso_43] ≥ 0)

We simplified constraint (17) using rule (IDP_POLY_SIMPLIFY) which results in the following new constraint:

(18)    (x103[2] ≥ 0∧[98] + [-1]x103[2] ≥ 0∧[99] + [-1]x103[2] ≥ 0∧x104[2] + [-1] + [-1]x103[2] ≥ 0∧x103[2] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥)∧[(-1)Bound*bni_42] + [(-1)bni_42]x102[2] ≥ 0∧[(-1)bso_43] ≥ 0)

We simplified constraint (18) using rule (POLY_REMOVE_MIN_MAX) which results in the following new constraint:

(19)    (x103[2] ≥ 0∧[98] + [-1]x103[2] ≥ 0∧[99] + [-1]x103[2] ≥ 0∧x104[2] + [-1] + [-1]x103[2] ≥ 0∧x103[2] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥)∧[(-1)Bound*bni_42] + [(-1)bni_42]x102[2] ≥ 0∧[(-1)bso_43] ≥ 0)

We simplified constraint (19) using rule (IDP_UNRESTRICTED_VARS) which results in the following new constraint:

(20)    (x103[2] ≥ 0∧[98] + [-1]x103[2] ≥ 0∧[99] + [-1]x103[2] ≥ 0∧x104[2] + [-1] + [-1]x103[2] ≥ 0∧x103[2] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥)∧[(-1)bni_42] = 0∧[(-1)Bound*bni_42] ≥ 0∧0 = 0∧[(-1)bso_43] ≥ 0)

We simplified constraint (20) using rule (IDP_SMT_SPLIT) which results in the following new constraint:

(21)    (x103[2] ≥ 0∧[98] + [-1]x103[2] ≥ 0∧[99] + [-1]x103[2] ≥ 0∧x104[2] ≥ 0∧x103[2] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥)∧[(-1)bni_42] = 0∧[(-1)Bound*bni_42] ≥ 0∧0 = 0∧[(-1)bso_43] ≥ 0)

For Pair COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102, x103, x104)) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102, x103, x206, x207)) the following chains were created:
• We consider the chain COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3])) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3])) which results in the following constraint:

(22)    (COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3]))≥NonInfC∧COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3]))≥1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))∧(UIncreasing(1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))), ≥))

We simplified constraint (22) using rule (POLY_CONSTRAINTS) which results in the following new constraint:

(23)    ((UIncreasing(1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))), ≥)∧[(-1)bso_45] ≥ 0)

We simplified constraint (23) using rule (IDP_POLY_SIMPLIFY) which results in the following new constraint:

(24)    ((UIncreasing(1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))), ≥)∧[(-1)bso_45] ≥ 0)

We simplified constraint (24) using rule (POLY_REMOVE_MIN_MAX) which results in the following new constraint:

(25)    ((UIncreasing(1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))), ≥)∧[(-1)bso_45] ≥ 0)

We simplified constraint (25) using rule (IDP_UNRESTRICTED_VARS) which results in the following new constraint:

(26)    ((UIncreasing(1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))), ≥)∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧[(-1)bso_45] ≥ 0)

For Pair 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102, x103, x104)) → COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104, x103), >=(x103, 0)), <=(x103, 99)), >=(99, +(x103, 1))), <=(1, +(x103, 1))), 1729_0_sort_GE(x102, x103, x104)) the following chains were created:
• We consider the chain 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[4], x103[4], x104[4])) → COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4])), COND_1729_1_MAIN_INVOKEMETHOD2(TRUE, 1729_0_sort_GE(x102[5], x103[5], x104[5])) → 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5])) which results in the following constraint:

(27)    (&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1)))=TRUE1729_0_sort_GE(x102[4], x103[4], x104[4])=1729_0_sort_GE(x102[5], x103[5], x104[5]) ⇒ 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[4], x103[4], x104[4]))≥NonInfC∧1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[4], x103[4], x104[4]))≥COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4]))∧(UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4]))), ≥))

We simplified constraint (27) using rules (I), (II), (IV), (IDP_BOOLEAN) which results in the following new constraint:

(28)    (<=(1, +(x103[4], 1))=TRUE>=(99, +(x103[4], 1))=TRUE<=(x103[4], 99)=TRUE>(x104[4], x103[4])=TRUE>=(x103[4], 0)=TRUE1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[4], x103[4], x104[4]))≥NonInfC∧1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[4], x103[4], x104[4]))≥COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4]))∧(UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4]))), ≥))

We simplified constraint (28) using rule (POLY_CONSTRAINTS) which results in the following new constraint:

(29)    (x103[4] ≥ 0∧[98] + [-1]x103[4] ≥ 0∧[99] + [-1]x103[4] ≥ 0∧x104[4] + [-1] + [-1]x103[4] ≥ 0∧x103[4] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4]))), ≥)∧[(-1)Bound*bni_46] + [(-1)bni_46]x102[4] ≥ 0∧[(-1)bso_47] ≥ 0)

We simplified constraint (29) using rule (IDP_POLY_SIMPLIFY) which results in the following new constraint:

(30)    (x103[4] ≥ 0∧[98] + [-1]x103[4] ≥ 0∧[99] + [-1]x103[4] ≥ 0∧x104[4] + [-1] + [-1]x103[4] ≥ 0∧x103[4] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4]))), ≥)∧[(-1)Bound*bni_46] + [(-1)bni_46]x102[4] ≥ 0∧[(-1)bso_47] ≥ 0)

We simplified constraint (30) using rule (POLY_REMOVE_MIN_MAX) which results in the following new constraint:

(31)    (x103[4] ≥ 0∧[98] + [-1]x103[4] ≥ 0∧[99] + [-1]x103[4] ≥ 0∧x104[4] + [-1] + [-1]x103[4] ≥ 0∧x103[4] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4]))), ≥)∧[(-1)Bound*bni_46] + [(-1)bni_46]x102[4] ≥ 0∧[(-1)bso_47] ≥ 0)

We simplified constraint (31) using rule (IDP_UNRESTRICTED_VARS) which results in the following new constraint:

(32)    (x103[4] ≥ 0∧[98] + [-1]x103[4] ≥ 0∧[99] + [-1]x103[4] ≥ 0∧x104[4] + [-1] + [-1]x103[4] ≥ 0∧x103[4] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4]))), ≥)∧[(-1)bni_46] = 0∧[(-1)Bound*bni_46] ≥ 0∧0 = 0∧[(-1)bso_47] ≥ 0)

We simplified constraint (32) using rule (IDP_SMT_SPLIT) which results in the following new constraint:

(33)    (x103[4] ≥ 0∧[98] + [-1]x103[4] ≥ 0∧[99] + [-1]x103[4] ≥ 0∧x104[4] ≥ 0∧x103[4] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4]))), ≥)∧[(-1)bni_46] = 0∧[(-1)Bound*bni_46] ≥ 0∧0 = 0∧[(-1)bso_47] ≥ 0)

For Pair COND_1729_1_MAIN_INVOKEMETHOD2(TRUE, 1729_0_sort_GE(x102, x103, x104)) → 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102, x103, x206, x207)) the following chains were created:
• We consider the chain COND_1729_1_MAIN_INVOKEMETHOD2(TRUE, 1729_0_sort_GE(x102[5], x103[5], x104[5])) → 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5])) which results in the following constraint:

(34)    (COND_1729_1_MAIN_INVOKEMETHOD2(TRUE, 1729_0_sort_GE(x102[5], x103[5], x104[5]))≥NonInfC∧COND_1729_1_MAIN_INVOKEMETHOD2(TRUE, 1729_0_sort_GE(x102[5], x103[5], x104[5]))≥1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]))∧(UIncreasing(1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]))), ≥))

We simplified constraint (34) using rule (POLY_CONSTRAINTS) which results in the following new constraint:

(35)    ((UIncreasing(1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]))), ≥)∧[(-1)bso_49] ≥ 0)

We simplified constraint (35) using rule (IDP_POLY_SIMPLIFY) which results in the following new constraint:

(36)    ((UIncreasing(1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]))), ≥)∧[(-1)bso_49] ≥ 0)

We simplified constraint (36) using rule (POLY_REMOVE_MIN_MAX) which results in the following new constraint:

(37)    ((UIncreasing(1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]))), ≥)∧[(-1)bso_49] ≥ 0)

We simplified constraint (37) using rule (IDP_UNRESTRICTED_VARS) which results in the following new constraint:

(38)    ((UIncreasing(1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]))), ≥)∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧[(-1)bso_49] ≥ 0)

For Pair 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102, x103, x104, x105)) → COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105, x104), >=(x103, 0)), >(x102, 0)), 1809_0_sort_LE(x102, x103, x104, x105)) the following chains were created:
• We consider the chain 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])) → COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])), COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7]))) which results in the following constraint:

(39)    (&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0))=TRUE1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])=1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7]) ⇒ 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))≥NonInfC∧1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))≥COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))∧(UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥))

We simplified constraint (39) using rules (I), (II), (IV), (IDP_BOOLEAN) which results in the following new constraint:

(40)    (>(x102[6], 0)=TRUE>=(x105[6], x104[6])=TRUE>=(x103[6], 0)=TRUE1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))≥NonInfC∧1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))≥COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))∧(UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥))

We simplified constraint (40) using rule (POLY_CONSTRAINTS) which results in the following new constraint:

(41)    (x102[6] + [-1] ≥ 0∧x105[6] + [-1]x104[6] ≥ 0∧x103[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(-1)Bound*bni_50] + [(-1)bni_50]x102[6] ≥ 0∧[(-1)bso_51] ≥ 0)

We simplified constraint (41) using rule (IDP_POLY_SIMPLIFY) which results in the following new constraint:

(42)    (x102[6] + [-1] ≥ 0∧x105[6] + [-1]x104[6] ≥ 0∧x103[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(-1)Bound*bni_50] + [(-1)bni_50]x102[6] ≥ 0∧[(-1)bso_51] ≥ 0)

We simplified constraint (42) using rule (POLY_REMOVE_MIN_MAX) which results in the following new constraint:

(43)    (x102[6] + [-1] ≥ 0∧x105[6] + [-1]x104[6] ≥ 0∧x103[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(-1)Bound*bni_50] + [(-1)bni_50]x102[6] ≥ 0∧[(-1)bso_51] ≥ 0)

We simplified constraint (43) using rule (IDP_SMT_SPLIT) which results in the following new constraint:

(44)    (x102[6] ≥ 0∧x105[6] + [-1]x104[6] ≥ 0∧x103[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(-1)Bound*bni_50 + (-1)bni_50] + [(-1)bni_50]x102[6] ≥ 0∧[(-1)bso_51] ≥ 0)

We simplified constraint (44) using rule (IDP_SMT_SPLIT) which results in the following new constraint:

(45)    (x102[6] ≥ 0∧x105[6] ≥ 0∧x103[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(-1)Bound*bni_50 + (-1)bni_50] + [(-1)bni_50]x102[6] ≥ 0∧[(-1)bso_51] ≥ 0)

We simplified constraint (45) using rule (IDP_SMT_SPLIT) which results in the following new constraints:

(46)    (x102[6] ≥ 0∧x105[6] ≥ 0∧x103[6] ≥ 0∧x104[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(-1)Bound*bni_50 + (-1)bni_50] + [(-1)bni_50]x102[6] ≥ 0∧[(-1)bso_51] ≥ 0)

(47)    (x102[6] ≥ 0∧x105[6] ≥ 0∧x103[6] ≥ 0∧x104[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(-1)Bound*bni_50 + (-1)bni_50] + [(-1)bni_50]x102[6] ≥ 0∧[(-1)bso_51] ≥ 0)

For Pair COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102, x103, x104, x105)) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102, +(x103, 1), -(100, x102))) the following chains were created:
• We consider the chain COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7]))) which results in the following constraint:

(48)    (COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7]))≥NonInfC∧COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7]))≥1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))∧(UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))), ≥))

We simplified constraint (48) using rule (POLY_CONSTRAINTS) which results in the following new constraint:

(49)    ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))), ≥)∧[(-1)bso_53] ≥ 0)

We simplified constraint (49) using rule (IDP_POLY_SIMPLIFY) which results in the following new constraint:

(50)    ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))), ≥)∧[(-1)bso_53] ≥ 0)

We simplified constraint (50) using rule (POLY_REMOVE_MIN_MAX) which results in the following new constraint:

(51)    ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))), ≥)∧[(-1)bso_53] ≥ 0)

We simplified constraint (51) using rule (IDP_UNRESTRICTED_VARS) which results in the following new constraint:

(52)    ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))), ≥)∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧[(-1)bso_53] ≥ 0)

For Pair 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x0, x1, x2, x3)) → COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3, x2), >=(x1, 0)), <=(x1, 99)), >(x0, 0)), >=(99, +(x1, 1))), <=(1, +(x1, 1))), 1810_0_sort_LE(x0, x1, x2, x3)) the following chains were created:
• We consider the chain 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8])) → COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8])), COND_1810_1_MAIN_INVOKEMETHOD(TRUE, 1810_0_sort_LE(x0[9], x1[9], x2[9], x3[9])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], +(x1[9], 1), -(100, x0[9]))) which results in the following constraint:

(53)    (&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1)))=TRUE1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8])=1810_0_sort_LE(x0[9], x1[9], x2[9], x3[9]) ⇒ 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))≥NonInfC∧1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))≥COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))∧(UIncreasing(COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))), ≥))

We simplified constraint (53) using rules (I), (II), (IV), (IDP_BOOLEAN) which results in the following new constraint:

(54)    (<=(1, +(x1[8], 1))=TRUE>=(99, +(x1[8], 1))=TRUE>(x0[8], 0)=TRUE<=(x1[8], 99)=TRUE<(x3[8], x2[8])=TRUE>=(x1[8], 0)=TRUE1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))≥NonInfC∧1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))≥COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))∧(UIncreasing(COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))), ≥))

We simplified constraint (54) using rule (POLY_CONSTRAINTS) which results in the following new constraint:

(55)    (x1[8] ≥ 0∧[98] + [-1]x1[8] ≥ 0∧x0[8] + [-1] ≥ 0∧[99] + [-1]x1[8] ≥ 0∧x2[8] + [-1] + [-1]x3[8] ≥ 0∧x1[8] ≥ 0 ⇒ (UIncreasing(COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))), ≥)∧[(-1)Bound*bni_54] + [(-1)bni_54]x0[8] ≥ 0∧[(-1)bso_55] ≥ 0)

We simplified constraint (55) using rule (IDP_POLY_SIMPLIFY) which results in the following new constraint:

(56)    (x1[8] ≥ 0∧[98] + [-1]x1[8] ≥ 0∧x0[8] + [-1] ≥ 0∧[99] + [-1]x1[8] ≥ 0∧x2[8] + [-1] + [-1]x3[8] ≥ 0∧x1[8] ≥ 0 ⇒ (UIncreasing(COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))), ≥)∧[(-1)Bound*bni_54] + [(-1)bni_54]x0[8] ≥ 0∧[(-1)bso_55] ≥ 0)

We simplified constraint (56) using rule (POLY_REMOVE_MIN_MAX) which results in the following new constraint:

(57)    (x1[8] ≥ 0∧[98] + [-1]x1[8] ≥ 0∧x0[8] + [-1] ≥ 0∧[99] + [-1]x1[8] ≥ 0∧x2[8] + [-1] + [-1]x3[8] ≥ 0∧x1[8] ≥ 0 ⇒ (UIncreasing(COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))), ≥)∧[(-1)Bound*bni_54] + [(-1)bni_54]x0[8] ≥ 0∧[(-1)bso_55] ≥ 0)

We simplified constraint (57) using rule (IDP_SMT_SPLIT) which results in the following new constraint:

(58)    (x1[8] ≥ 0∧[98] + [-1]x1[8] ≥ 0∧x0[8] ≥ 0∧[99] + [-1]x1[8] ≥ 0∧x2[8] + [-1] + [-1]x3[8] ≥ 0∧x1[8] ≥ 0 ⇒ (UIncreasing(COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))), ≥)∧[(-1)Bound*bni_54 + (-1)bni_54] + [(-1)bni_54]x0[8] ≥ 0∧[(-1)bso_55] ≥ 0)

We simplified constraint (58) using rule (IDP_SMT_SPLIT) which results in the following new constraint:

(59)    (x1[8] ≥ 0∧[98] + [-1]x1[8] ≥ 0∧x0[8] ≥ 0∧[99] + [-1]x1[8] ≥ 0∧x2[8] ≥ 0∧x1[8] ≥ 0 ⇒ (UIncreasing(COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))), ≥)∧[(-1)Bound*bni_54 + (-1)bni_54] + [(-1)bni_54]x0[8] ≥ 0∧[(-1)bso_55] ≥ 0)

We simplified constraint (59) using rule (IDP_SMT_SPLIT) which results in the following new constraints:

(60)    (x1[8] ≥ 0∧[98] + [-1]x1[8] ≥ 0∧x0[8] ≥ 0∧[99] + [-1]x1[8] ≥ 0∧x2[8] ≥ 0∧x1[8] ≥ 0∧x3[8] ≥ 0 ⇒ (UIncreasing(COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))), ≥)∧[(-1)Bound*bni_54 + (-1)bni_54] + [(-1)bni_54]x0[8] ≥ 0∧[(-1)bso_55] ≥ 0)

(61)    (x1[8] ≥ 0∧[98] + [-1]x1[8] ≥ 0∧x0[8] ≥ 0∧[99] + [-1]x1[8] ≥ 0∧x2[8] ≥ 0∧x1[8] ≥ 0∧x3[8] ≥ 0 ⇒ (UIncreasing(COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))), ≥)∧[(-1)Bound*bni_54 + (-1)bni_54] + [(-1)bni_54]x0[8] ≥ 0∧[(-1)bso_55] ≥ 0)

For Pair COND_1810_1_MAIN_INVOKEMETHOD(TRUE, 1810_0_sort_LE(x0, x1, x2, x3)) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0, +(x1, 1), -(100, x0))) the following chains were created:
• We consider the chain COND_1810_1_MAIN_INVOKEMETHOD(TRUE, 1810_0_sort_LE(x0[9], x1[9], x2[9], x3[9])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], +(x1[9], 1), -(100, x0[9]))) which results in the following constraint:

(62)    (COND_1810_1_MAIN_INVOKEMETHOD(TRUE, 1810_0_sort_LE(x0[9], x1[9], x2[9], x3[9]))≥NonInfC∧COND_1810_1_MAIN_INVOKEMETHOD(TRUE, 1810_0_sort_LE(x0[9], x1[9], x2[9], x3[9]))≥1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], +(x1[9], 1), -(100, x0[9])))∧(UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], +(x1[9], 1), -(100, x0[9])))), ≥))

We simplified constraint (62) using rule (POLY_CONSTRAINTS) which results in the following new constraint:

(63)    ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], +(x1[9], 1), -(100, x0[9])))), ≥)∧[(-1)bso_57] ≥ 0)

We simplified constraint (63) using rule (IDP_POLY_SIMPLIFY) which results in the following new constraint:

(64)    ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], +(x1[9], 1), -(100, x0[9])))), ≥)∧[(-1)bso_57] ≥ 0)

We simplified constraint (64) using rule (POLY_REMOVE_MIN_MAX) which results in the following new constraint:

(65)    ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], +(x1[9], 1), -(100, x0[9])))), ≥)∧[(-1)bso_57] ≥ 0)

We simplified constraint (65) using rule (IDP_UNRESTRICTED_VARS) which results in the following new constraint:

(66)    ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], +(x1[9], 1), -(100, x0[9])))), ≥)∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧[(-1)bso_57] ≥ 0)

To summarize, we get the following constraints P for the following pairs.
• 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102, x103, x104)) → COND_1729_1_MAIN_INVOKEMETHOD(&&(&&(&&(<=(x104, x103), >(x102, 0)), >(100, +(x102, 1))), <(0, +(x102, 1))), 1729_0_sort_GE(x102, x103, x104))
• ([1] + x102[0] ≥ 0∧[97] + [-1]x102[0] ≥ 0∧x103[0] ≥ 0∧x102[0] ≥ 0∧x104[0] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD(&&(&&(&&(<=(x104[0], x103[0]), >(x102[0], 0)), >(100, +(x102[0], 1))), <(0, +(x102[0], 1))), 1729_0_sort_GE(x102[0], x103[0], x104[0]))), ≥)∧[(-1)Bound*bni_38 + (-1)bni_38] + [(-1)bni_38]x102[0] ≥ 0∧[(-1)bso_39] ≥ 0)
• ([1] + x102[0] ≥ 0∧[97] + [-1]x102[0] ≥ 0∧x103[0] ≥ 0∧x102[0] ≥ 0∧x104[0] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD(&&(&&(&&(<=(x104[0], x103[0]), >(x102[0], 0)), >(100, +(x102[0], 1))), <(0, +(x102[0], 1))), 1729_0_sort_GE(x102[0], x103[0], x104[0]))), ≥)∧[(-1)Bound*bni_38 + (-1)bni_38] + [(-1)bni_38]x102[0] ≥ 0∧[(-1)bso_39] ≥ 0)

• COND_1729_1_MAIN_INVOKEMETHOD(TRUE, 1729_0_sort_GE(x102, x103, x104)) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(+(x102, 1), 0, -(100, +(x102, 1))))
• ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(+(x102[1], 1), 0, -(100, +(x102[1], 1))))), ≥)∧0 = 0∧0 = 0∧0 = 0∧[1 + (-1)bso_41] ≥ 0)

• 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102, x103, x104)) → COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104, x103), >=(x103, 0)), <=(x103, 99)), >=(99, +(x103, 1))), <=(1, +(x103, 1))), 1729_0_sort_GE(x102, x103, x104))
• (x103[2] ≥ 0∧[98] + [-1]x103[2] ≥ 0∧[99] + [-1]x103[2] ≥ 0∧x104[2] ≥ 0∧x103[2] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥)∧[(-1)bni_42] = 0∧[(-1)Bound*bni_42] ≥ 0∧0 = 0∧[(-1)bso_43] ≥ 0)

• COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102, x103, x104)) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102, x103, x206, x207))
• ((UIncreasing(1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))), ≥)∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧[(-1)bso_45] ≥ 0)

• 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102, x103, x104)) → COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104, x103), >=(x103, 0)), <=(x103, 99)), >=(99, +(x103, 1))), <=(1, +(x103, 1))), 1729_0_sort_GE(x102, x103, x104))
• (x103[4] ≥ 0∧[98] + [-1]x103[4] ≥ 0∧[99] + [-1]x103[4] ≥ 0∧x104[4] ≥ 0∧x103[4] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4]))), ≥)∧[(-1)bni_46] = 0∧[(-1)Bound*bni_46] ≥ 0∧0 = 0∧[(-1)bso_47] ≥ 0)

• COND_1729_1_MAIN_INVOKEMETHOD2(TRUE, 1729_0_sort_GE(x102, x103, x104)) → 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102, x103, x206, x207))
• ((UIncreasing(1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]))), ≥)∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧[(-1)bso_49] ≥ 0)

• 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102, x103, x104, x105)) → COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105, x104), >=(x103, 0)), >(x102, 0)), 1809_0_sort_LE(x102, x103, x104, x105))
• (x102[6] ≥ 0∧x105[6] ≥ 0∧x103[6] ≥ 0∧x104[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(-1)Bound*bni_50 + (-1)bni_50] + [(-1)bni_50]x102[6] ≥ 0∧[(-1)bso_51] ≥ 0)
• (x102[6] ≥ 0∧x105[6] ≥ 0∧x103[6] ≥ 0∧x104[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(-1)Bound*bni_50 + (-1)bni_50] + [(-1)bni_50]x102[6] ≥ 0∧[(-1)bso_51] ≥ 0)

• COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102, x103, x104, x105)) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102, +(x103, 1), -(100, x102)))
• ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))), ≥)∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧[(-1)bso_53] ≥ 0)

• 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x0, x1, x2, x3)) → COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3, x2), >=(x1, 0)), <=(x1, 99)), >(x0, 0)), >=(99, +(x1, 1))), <=(1, +(x1, 1))), 1810_0_sort_LE(x0, x1, x2, x3))
• (x1[8] ≥ 0∧[98] + [-1]x1[8] ≥ 0∧x0[8] ≥ 0∧[99] + [-1]x1[8] ≥ 0∧x2[8] ≥ 0∧x1[8] ≥ 0∧x3[8] ≥ 0 ⇒ (UIncreasing(COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))), ≥)∧[(-1)Bound*bni_54 + (-1)bni_54] + [(-1)bni_54]x0[8] ≥ 0∧[(-1)bso_55] ≥ 0)
• (x1[8] ≥ 0∧[98] + [-1]x1[8] ≥ 0∧x0[8] ≥ 0∧[99] + [-1]x1[8] ≥ 0∧x2[8] ≥ 0∧x1[8] ≥ 0∧x3[8] ≥ 0 ⇒ (UIncreasing(COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))), ≥)∧[(-1)Bound*bni_54 + (-1)bni_54] + [(-1)bni_54]x0[8] ≥ 0∧[(-1)bso_55] ≥ 0)

• COND_1810_1_MAIN_INVOKEMETHOD(TRUE, 1810_0_sort_LE(x0, x1, x2, x3)) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0, +(x1, 1), -(100, x0)))
• ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], +(x1[9], 1), -(100, x0[9])))), ≥)∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧[(-1)bso_57] ≥ 0)

The constraints for P> respective Pbound are constructed from P where we just replace every occurence of "t ≥ s" in P by "t > s" respective "t ≥ c". Here c stands for the fresh constant used for Pbound.
Using the following integer polynomial ordering the resulting constraints can be solved
Polynomial interpretation over integers[POLO]:

POL(TRUE) = 0
POL(FALSE) = 0
POL(1729_1_MAIN_INVOKEMETHOD(x1)) = [-1] + [-1]x1
POL(1729_0_sort_GE(x1, x2, x3)) = [-1] + x1
POL(COND_1729_1_MAIN_INVOKEMETHOD(x1, x2)) = [-1] + [-1]x2
POL(&&(x1, x2)) = [-1]
POL(<=(x1, x2)) = [-1]
POL(>(x1, x2)) = [-1]
POL(0) = 0
POL(100) = [100]
POL(+(x1, x2)) = x1 + x2
POL(1) = [1]
POL(<(x1, x2)) = [-1]
POL(-(x1, x2)) = x1 + [-1]x2
POL(COND_1729_1_MAIN_INVOKEMETHOD1(x1, x2)) = [-1] + [-1]x2
POL(>=(x1, x2)) = [-1]
POL(99) = [99]
POL(1809_1_MAIN_INVOKEMETHOD(x1)) = [-1] + [-1]x1
POL(1809_0_sort_LE(x1, x2, x3, x4)) = [-1] + x1
POL(COND_1729_1_MAIN_INVOKEMETHOD2(x1, x2)) = [-1] + [-1]x2
POL(1810_1_MAIN_INVOKEMETHOD(x1)) = [-1] + [-1]x1
POL(1810_0_sort_LE(x1, x2, x3, x4)) = [-1] + x1
POL(COND_1809_1_MAIN_INVOKEMETHOD(x1, x2)) = [-1] + [-1]x2
POL(COND_1810_1_MAIN_INVOKEMETHOD(x1, x2)) = [-1] + [-1]x2

The following pairs are in P>:

COND_1729_1_MAIN_INVOKEMETHOD(TRUE, 1729_0_sort_GE(x102[1], x103[1], x104[1])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(+(x102[1], 1), 0, -(100, +(x102[1], 1))))

The following pairs are in Pbound:

1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[0], x103[0], x104[0])) → COND_1729_1_MAIN_INVOKEMETHOD(&&(&&(&&(<=(x104[0], x103[0]), >(x102[0], 0)), >(100, +(x102[0], 1))), <(0, +(x102[0], 1))), 1729_0_sort_GE(x102[0], x103[0], x104[0]))

The following pairs are in P:

1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[0], x103[0], x104[0])) → COND_1729_1_MAIN_INVOKEMETHOD(&&(&&(&&(<=(x104[0], x103[0]), >(x102[0], 0)), >(100, +(x102[0], 1))), <(0, +(x102[0], 1))), 1729_0_sort_GE(x102[0], x103[0], x104[0]))
1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2])) → COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))
COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3])) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))
1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[4], x103[4], x104[4])) → COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4]))
COND_1729_1_MAIN_INVOKEMETHOD2(TRUE, 1729_0_sort_GE(x102[5], x103[5], x104[5])) → 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]))
1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])) → COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))
COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))
1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8])) → COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))
COND_1810_1_MAIN_INVOKEMETHOD(TRUE, 1810_0_sort_LE(x0[9], x1[9], x2[9], x3[9])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], +(x1[9], 1), -(100, x0[9])))

There are no usable rules.

### (7) Obligation:

IDP problem:
The following function symbols are pre-defined:
 != ~ Neq: (Integer, Integer) -> Boolean * ~ Mul: (Integer, Integer) -> Integer >= ~ Ge: (Integer, Integer) -> Boolean -1 ~ UnaryMinus: (Integer) -> Integer | ~ Bwor: (Integer, Integer) -> Integer / ~ Div: (Integer, Integer) -> Integer = ~ Eq: (Integer, Integer) -> Boolean ~ Bwxor: (Integer, Integer) -> Integer || ~ Lor: (Boolean, Boolean) -> Boolean ! ~ Lnot: (Boolean) -> Boolean < ~ Lt: (Integer, Integer) -> Boolean - ~ Sub: (Integer, Integer) -> Integer <= ~ Le: (Integer, Integer) -> Boolean > ~ Gt: (Integer, Integer) -> Boolean ~ ~ Bwnot: (Integer) -> Integer % ~ Mod: (Integer, Integer) -> Integer & ~ Bwand: (Integer, Integer) -> Integer + ~ Add: (Integer, Integer) -> Integer && ~ Land: (Boolean, Boolean) -> Boolean

The following domains are used:

Boolean, Integer

R is empty.

The integer pair graph contains the following rules and edges:
(0): 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[0], x103[0], x104[0])) → COND_1729_1_MAIN_INVOKEMETHOD(x104[0] <= x103[0] && x102[0] > 0 && 100 > x102[0] + 1 && 0 < x102[0] + 1, 1729_0_sort_GE(x102[0], x103[0], x104[0]))
(2): 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2])) → COND_1729_1_MAIN_INVOKEMETHOD1(x104[2] > x103[2] && x103[2] >= 0 && x103[2] <= 99 && 99 >= x103[2] + 1 && 1 <= x103[2] + 1, 1729_0_sort_GE(x102[2], x103[2], x104[2]))
(3): COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3])) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))
(4): 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[4], x103[4], x104[4])) → COND_1729_1_MAIN_INVOKEMETHOD2(x104[4] > x103[4] && x103[4] >= 0 && x103[4] <= 99 && 99 >= x103[4] + 1 && 1 <= x103[4] + 1, 1729_0_sort_GE(x102[4], x103[4], x104[4]))
(5): COND_1729_1_MAIN_INVOKEMETHOD2(TRUE, 1729_0_sort_GE(x102[5], x103[5], x104[5])) → 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]))
(6): 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])) → COND_1809_1_MAIN_INVOKEMETHOD(x105[6] >= x104[6] && x103[6] >= 0 && x102[6] > 0, 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))
(7): COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], x103[7] + 1, 100 - x102[7]))
(8): 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8])) → COND_1810_1_MAIN_INVOKEMETHOD(x3[8] < x2[8] && x1[8] >= 0 && x1[8] <= 99 && x0[8] > 0 && 99 >= x1[8] + 1 && 1 <= x1[8] + 1, 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))
(9): COND_1810_1_MAIN_INVOKEMETHOD(TRUE, 1810_0_sort_LE(x0[9], x1[9], x2[9], x3[9])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], x1[9] + 1, 100 - x0[9]))

(7) -> (0), if ((1729_0_sort_GE(x102[7], x103[7] + 1, 100 - x102[7]) →* 1729_0_sort_GE(x102[0], x103[0], x104[0])))

(9) -> (0), if ((1729_0_sort_GE(x0[9], x1[9] + 1, 100 - x0[9]) →* 1729_0_sort_GE(x102[0], x103[0], x104[0])))

(7) -> (2), if ((1729_0_sort_GE(x102[7], x103[7] + 1, 100 - x102[7]) →* 1729_0_sort_GE(x102[2], x103[2], x104[2])))

(9) -> (2), if ((1729_0_sort_GE(x0[9], x1[9] + 1, 100 - x0[9]) →* 1729_0_sort_GE(x102[2], x103[2], x104[2])))

(2) -> (3), if ((x104[2] > x103[2] && x103[2] >= 0 && x103[2] <= 99 && 99 >= x103[2] + 1 && 1 <= x103[2] + 1* TRUE)∧(1729_0_sort_GE(x102[2], x103[2], x104[2]) →* 1729_0_sort_GE(x102[3], x103[3], x104[3])))

(7) -> (4), if ((1729_0_sort_GE(x102[7], x103[7] + 1, 100 - x102[7]) →* 1729_0_sort_GE(x102[4], x103[4], x104[4])))

(9) -> (4), if ((1729_0_sort_GE(x0[9], x1[9] + 1, 100 - x0[9]) →* 1729_0_sort_GE(x102[4], x103[4], x104[4])))

(4) -> (5), if ((x104[4] > x103[4] && x103[4] >= 0 && x103[4] <= 99 && 99 >= x103[4] + 1 && 1 <= x103[4] + 1* TRUE)∧(1729_0_sort_GE(x102[4], x103[4], x104[4]) →* 1729_0_sort_GE(x102[5], x103[5], x104[5])))

(3) -> (6), if ((1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]) →* 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])))

(6) -> (7), if ((x105[6] >= x104[6] && x103[6] >= 0 && x102[6] > 0* TRUE)∧(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]) →* 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])))

(5) -> (8), if ((1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]) →* 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8])))

(8) -> (9), if ((x3[8] < x2[8] && x1[8] >= 0 && x1[8] <= 99 && x0[8] > 0 && 99 >= x1[8] + 1 && 1 <= x1[8] + 1* TRUE)∧(1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]) →* 1810_0_sort_LE(x0[9], x1[9], x2[9], x3[9])))

The set Q is empty.

### (8) IDependencyGraphProof (EQUIVALENT transformation)

The approximation of the Dependency Graph [LPAR04,FROCOS05,EDGSTAR] contains 1 SCC with 1 less node.

### (9) Obligation:

IDP problem:
The following function symbols are pre-defined:
 != ~ Neq: (Integer, Integer) -> Boolean * ~ Mul: (Integer, Integer) -> Integer >= ~ Ge: (Integer, Integer) -> Boolean -1 ~ UnaryMinus: (Integer) -> Integer | ~ Bwor: (Integer, Integer) -> Integer / ~ Div: (Integer, Integer) -> Integer = ~ Eq: (Integer, Integer) -> Boolean ~ Bwxor: (Integer, Integer) -> Integer || ~ Lor: (Boolean, Boolean) -> Boolean ! ~ Lnot: (Boolean) -> Boolean < ~ Lt: (Integer, Integer) -> Boolean - ~ Sub: (Integer, Integer) -> Integer <= ~ Le: (Integer, Integer) -> Boolean > ~ Gt: (Integer, Integer) -> Boolean ~ ~ Bwnot: (Integer) -> Integer % ~ Mod: (Integer, Integer) -> Integer & ~ Bwand: (Integer, Integer) -> Integer + ~ Add: (Integer, Integer) -> Integer && ~ Land: (Boolean, Boolean) -> Boolean

The following domains are used:

Integer, Boolean

R is empty.

The integer pair graph contains the following rules and edges:
(9): COND_1810_1_MAIN_INVOKEMETHOD(TRUE, 1810_0_sort_LE(x0[9], x1[9], x2[9], x3[9])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], x1[9] + 1, 100 - x0[9]))
(8): 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8])) → COND_1810_1_MAIN_INVOKEMETHOD(x3[8] < x2[8] && x1[8] >= 0 && x1[8] <= 99 && x0[8] > 0 && 99 >= x1[8] + 1 && 1 <= x1[8] + 1, 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))
(5): COND_1729_1_MAIN_INVOKEMETHOD2(TRUE, 1729_0_sort_GE(x102[5], x103[5], x104[5])) → 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]))
(4): 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[4], x103[4], x104[4])) → COND_1729_1_MAIN_INVOKEMETHOD2(x104[4] > x103[4] && x103[4] >= 0 && x103[4] <= 99 && 99 >= x103[4] + 1 && 1 <= x103[4] + 1, 1729_0_sort_GE(x102[4], x103[4], x104[4]))
(7): COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], x103[7] + 1, 100 - x102[7]))
(6): 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])) → COND_1809_1_MAIN_INVOKEMETHOD(x105[6] >= x104[6] && x103[6] >= 0 && x102[6] > 0, 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))
(3): COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3])) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))
(2): 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2])) → COND_1729_1_MAIN_INVOKEMETHOD1(x104[2] > x103[2] && x103[2] >= 0 && x103[2] <= 99 && 99 >= x103[2] + 1 && 1 <= x103[2] + 1, 1729_0_sort_GE(x102[2], x103[2], x104[2]))

(7) -> (2), if ((1729_0_sort_GE(x102[7], x103[7] + 1, 100 - x102[7]) →* 1729_0_sort_GE(x102[2], x103[2], x104[2])))

(9) -> (2), if ((1729_0_sort_GE(x0[9], x1[9] + 1, 100 - x0[9]) →* 1729_0_sort_GE(x102[2], x103[2], x104[2])))

(2) -> (3), if ((x104[2] > x103[2] && x103[2] >= 0 && x103[2] <= 99 && 99 >= x103[2] + 1 && 1 <= x103[2] + 1* TRUE)∧(1729_0_sort_GE(x102[2], x103[2], x104[2]) →* 1729_0_sort_GE(x102[3], x103[3], x104[3])))

(7) -> (4), if ((1729_0_sort_GE(x102[7], x103[7] + 1, 100 - x102[7]) →* 1729_0_sort_GE(x102[4], x103[4], x104[4])))

(9) -> (4), if ((1729_0_sort_GE(x0[9], x1[9] + 1, 100 - x0[9]) →* 1729_0_sort_GE(x102[4], x103[4], x104[4])))

(4) -> (5), if ((x104[4] > x103[4] && x103[4] >= 0 && x103[4] <= 99 && 99 >= x103[4] + 1 && 1 <= x103[4] + 1* TRUE)∧(1729_0_sort_GE(x102[4], x103[4], x104[4]) →* 1729_0_sort_GE(x102[5], x103[5], x104[5])))

(3) -> (6), if ((1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]) →* 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])))

(6) -> (7), if ((x105[6] >= x104[6] && x103[6] >= 0 && x102[6] > 0* TRUE)∧(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]) →* 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])))

(5) -> (8), if ((1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]) →* 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8])))

(8) -> (9), if ((x3[8] < x2[8] && x1[8] >= 0 && x1[8] <= 99 && x0[8] > 0 && 99 >= x1[8] + 1 && 1 <= x1[8] + 1* TRUE)∧(1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]) →* 1810_0_sort_LE(x0[9], x1[9], x2[9], x3[9])))

The set Q is empty.

### (10) IDPNonInfProof (SOUND transformation)

The constraints were generated the following way:
The DP Problem is simplified using the Induction Calculus [NONINF] with the following steps:
Note that final constraints are written in bold face.

For Pair COND_1810_1_MAIN_INVOKEMETHOD(TRUE, 1810_0_sort_LE(x0[9], x1[9], x2[9], x3[9])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], +(x1[9], 1), -(100, x0[9]))) the following chains were created:
• We consider the chain COND_1810_1_MAIN_INVOKEMETHOD(TRUE, 1810_0_sort_LE(x0[9], x1[9], x2[9], x3[9])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], +(x1[9], 1), -(100, x0[9]))) which results in the following constraint:

(1)    (COND_1810_1_MAIN_INVOKEMETHOD(TRUE, 1810_0_sort_LE(x0[9], x1[9], x2[9], x3[9]))≥NonInfC∧COND_1810_1_MAIN_INVOKEMETHOD(TRUE, 1810_0_sort_LE(x0[9], x1[9], x2[9], x3[9]))≥1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], +(x1[9], 1), -(100, x0[9])))∧(UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], +(x1[9], 1), -(100, x0[9])))), ≥))

We simplified constraint (1) using rule (POLY_CONSTRAINTS) which results in the following new constraint:

(2)    ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], +(x1[9], 1), -(100, x0[9])))), ≥)∧[(-1)bso_19] ≥ 0)

We simplified constraint (2) using rule (IDP_POLY_SIMPLIFY) which results in the following new constraint:

(3)    ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], +(x1[9], 1), -(100, x0[9])))), ≥)∧[(-1)bso_19] ≥ 0)

We simplified constraint (3) using rule (POLY_REMOVE_MIN_MAX) which results in the following new constraint:

(4)    ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], +(x1[9], 1), -(100, x0[9])))), ≥)∧[(-1)bso_19] ≥ 0)

We simplified constraint (4) using rule (IDP_UNRESTRICTED_VARS) which results in the following new constraint:

(5)    ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], +(x1[9], 1), -(100, x0[9])))), ≥)∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧[(-1)bso_19] ≥ 0)

For Pair 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8])) → COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8])) the following chains were created:
• We consider the chain 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8])) → COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8])), COND_1810_1_MAIN_INVOKEMETHOD(TRUE, 1810_0_sort_LE(x0[9], x1[9], x2[9], x3[9])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], +(x1[9], 1), -(100, x0[9]))) which results in the following constraint:

(6)    (&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1)))=TRUE1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8])=1810_0_sort_LE(x0[9], x1[9], x2[9], x3[9]) ⇒ 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))≥NonInfC∧1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))≥COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))∧(UIncreasing(COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))), ≥))

We simplified constraint (6) using rules (I), (II), (IV), (IDP_BOOLEAN) which results in the following new constraint:

(7)    (<=(1, +(x1[8], 1))=TRUE>=(99, +(x1[8], 1))=TRUE>(x0[8], 0)=TRUE<=(x1[8], 99)=TRUE<(x3[8], x2[8])=TRUE>=(x1[8], 0)=TRUE1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))≥NonInfC∧1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))≥COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))∧(UIncreasing(COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))), ≥))

We simplified constraint (7) using rule (POLY_CONSTRAINTS) which results in the following new constraint:

(8)    (x1[8] ≥ 0∧[98] + [-1]x1[8] ≥ 0∧x0[8] + [-1] ≥ 0∧[99] + [-1]x1[8] ≥ 0∧x2[8] + [-1] + [-1]x3[8] ≥ 0∧x1[8] ≥ 0 ⇒ (UIncreasing(COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))), ≥)∧[(2)bni_20 + (-1)Bound*bni_20] + [(-1)bni_20]x1[8] + [bni_20]x0[8] ≥ 0∧[1 + (-1)bso_21] ≥ 0)

We simplified constraint (8) using rule (IDP_POLY_SIMPLIFY) which results in the following new constraint:

(9)    (x1[8] ≥ 0∧[98] + [-1]x1[8] ≥ 0∧x0[8] + [-1] ≥ 0∧[99] + [-1]x1[8] ≥ 0∧x2[8] + [-1] + [-1]x3[8] ≥ 0∧x1[8] ≥ 0 ⇒ (UIncreasing(COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))), ≥)∧[(2)bni_20 + (-1)Bound*bni_20] + [(-1)bni_20]x1[8] + [bni_20]x0[8] ≥ 0∧[1 + (-1)bso_21] ≥ 0)

We simplified constraint (9) using rule (POLY_REMOVE_MIN_MAX) which results in the following new constraint:

(10)    (x1[8] ≥ 0∧[98] + [-1]x1[8] ≥ 0∧x0[8] + [-1] ≥ 0∧[99] + [-1]x1[8] ≥ 0∧x2[8] + [-1] + [-1]x3[8] ≥ 0∧x1[8] ≥ 0 ⇒ (UIncreasing(COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))), ≥)∧[(2)bni_20 + (-1)Bound*bni_20] + [(-1)bni_20]x1[8] + [bni_20]x0[8] ≥ 0∧[1 + (-1)bso_21] ≥ 0)

We simplified constraint (10) using rule (IDP_SMT_SPLIT) which results in the following new constraint:

(11)    (x1[8] ≥ 0∧[98] + [-1]x1[8] ≥ 0∧x0[8] ≥ 0∧[99] + [-1]x1[8] ≥ 0∧x2[8] + [-1] + [-1]x3[8] ≥ 0∧x1[8] ≥ 0 ⇒ (UIncreasing(COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))), ≥)∧[(3)bni_20 + (-1)Bound*bni_20] + [(-1)bni_20]x1[8] + [bni_20]x0[8] ≥ 0∧[1 + (-1)bso_21] ≥ 0)

We simplified constraint (11) using rule (IDP_SMT_SPLIT) which results in the following new constraint:

(12)    (x1[8] ≥ 0∧[98] + [-1]x1[8] ≥ 0∧x0[8] ≥ 0∧[99] + [-1]x1[8] ≥ 0∧x2[8] ≥ 0∧x1[8] ≥ 0 ⇒ (UIncreasing(COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))), ≥)∧[(3)bni_20 + (-1)Bound*bni_20] + [(-1)bni_20]x1[8] + [bni_20]x0[8] ≥ 0∧[1 + (-1)bso_21] ≥ 0)

We simplified constraint (12) using rule (IDP_SMT_SPLIT) which results in the following new constraints:

(13)    (x1[8] ≥ 0∧[98] + [-1]x1[8] ≥ 0∧x0[8] ≥ 0∧[99] + [-1]x1[8] ≥ 0∧x2[8] ≥ 0∧x1[8] ≥ 0∧x3[8] ≥ 0 ⇒ (UIncreasing(COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))), ≥)∧[(3)bni_20 + (-1)Bound*bni_20] + [(-1)bni_20]x1[8] + [bni_20]x0[8] ≥ 0∧[1 + (-1)bso_21] ≥ 0)

(14)    (x1[8] ≥ 0∧[98] + [-1]x1[8] ≥ 0∧x0[8] ≥ 0∧[99] + [-1]x1[8] ≥ 0∧x2[8] ≥ 0∧x1[8] ≥ 0∧x3[8] ≥ 0 ⇒ (UIncreasing(COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))), ≥)∧[(3)bni_20 + (-1)Bound*bni_20] + [(-1)bni_20]x1[8] + [bni_20]x0[8] ≥ 0∧[1 + (-1)bso_21] ≥ 0)

For Pair COND_1729_1_MAIN_INVOKEMETHOD2(TRUE, 1729_0_sort_GE(x102[5], x103[5], x104[5])) → 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5])) the following chains were created:
• We consider the chain COND_1729_1_MAIN_INVOKEMETHOD2(TRUE, 1729_0_sort_GE(x102[5], x103[5], x104[5])) → 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5])) which results in the following constraint:

(15)    (COND_1729_1_MAIN_INVOKEMETHOD2(TRUE, 1729_0_sort_GE(x102[5], x103[5], x104[5]))≥NonInfC∧COND_1729_1_MAIN_INVOKEMETHOD2(TRUE, 1729_0_sort_GE(x102[5], x103[5], x104[5]))≥1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]))∧(UIncreasing(1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]))), ≥))

We simplified constraint (15) using rule (POLY_CONSTRAINTS) which results in the following new constraint:

(16)    ((UIncreasing(1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]))), ≥)∧[(-1)bso_23] ≥ 0)

We simplified constraint (16) using rule (IDP_POLY_SIMPLIFY) which results in the following new constraint:

(17)    ((UIncreasing(1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]))), ≥)∧[(-1)bso_23] ≥ 0)

We simplified constraint (17) using rule (POLY_REMOVE_MIN_MAX) which results in the following new constraint:

(18)    ((UIncreasing(1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]))), ≥)∧[(-1)bso_23] ≥ 0)

We simplified constraint (18) using rule (IDP_UNRESTRICTED_VARS) which results in the following new constraint:

(19)    ((UIncreasing(1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]))), ≥)∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧[(-1)bso_23] ≥ 0)

For Pair 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[4], x103[4], x104[4])) → COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4])) the following chains were created:
• We consider the chain 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[4], x103[4], x104[4])) → COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4])), COND_1729_1_MAIN_INVOKEMETHOD2(TRUE, 1729_0_sort_GE(x102[5], x103[5], x104[5])) → 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5])) which results in the following constraint:

(20)    (&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1)))=TRUE1729_0_sort_GE(x102[4], x103[4], x104[4])=1729_0_sort_GE(x102[5], x103[5], x104[5]) ⇒ 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[4], x103[4], x104[4]))≥NonInfC∧1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[4], x103[4], x104[4]))≥COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4]))∧(UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4]))), ≥))

We simplified constraint (20) using rules (I), (II), (IV), (IDP_BOOLEAN) which results in the following new constraint:

(21)    (<=(1, +(x103[4], 1))=TRUE>=(99, +(x103[4], 1))=TRUE<=(x103[4], 99)=TRUE>(x104[4], x103[4])=TRUE>=(x103[4], 0)=TRUE1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[4], x103[4], x104[4]))≥NonInfC∧1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[4], x103[4], x104[4]))≥COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4]))∧(UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4]))), ≥))

We simplified constraint (21) using rule (POLY_CONSTRAINTS) which results in the following new constraint:

(22)    (x103[4] ≥ 0∧[98] + [-1]x103[4] ≥ 0∧[99] + [-1]x103[4] ≥ 0∧x104[4] + [-1] + [-1]x103[4] ≥ 0∧x103[4] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4]))), ≥)∧[(2)bni_24 + (-1)Bound*bni_24] + [(-1)bni_24]x103[4] + [bni_24]x102[4] ≥ 0∧[(-1)bso_25] ≥ 0)

We simplified constraint (22) using rule (IDP_POLY_SIMPLIFY) which results in the following new constraint:

(23)    (x103[4] ≥ 0∧[98] + [-1]x103[4] ≥ 0∧[99] + [-1]x103[4] ≥ 0∧x104[4] + [-1] + [-1]x103[4] ≥ 0∧x103[4] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4]))), ≥)∧[(2)bni_24 + (-1)Bound*bni_24] + [(-1)bni_24]x103[4] + [bni_24]x102[4] ≥ 0∧[(-1)bso_25] ≥ 0)

We simplified constraint (23) using rule (POLY_REMOVE_MIN_MAX) which results in the following new constraint:

(24)    (x103[4] ≥ 0∧[98] + [-1]x103[4] ≥ 0∧[99] + [-1]x103[4] ≥ 0∧x104[4] + [-1] + [-1]x103[4] ≥ 0∧x103[4] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4]))), ≥)∧[(2)bni_24 + (-1)Bound*bni_24] + [(-1)bni_24]x103[4] + [bni_24]x102[4] ≥ 0∧[(-1)bso_25] ≥ 0)

We simplified constraint (24) using rule (IDP_UNRESTRICTED_VARS) which results in the following new constraint:

(25)    (x103[4] ≥ 0∧[98] + [-1]x103[4] ≥ 0∧[99] + [-1]x103[4] ≥ 0∧x104[4] + [-1] + [-1]x103[4] ≥ 0∧x103[4] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4]))), ≥)∧[bni_24] = 0∧[(2)bni_24 + (-1)Bound*bni_24] + [(-1)bni_24]x103[4] ≥ 0∧0 = 0∧[(-1)bso_25] ≥ 0)

We simplified constraint (25) using rule (IDP_SMT_SPLIT) which results in the following new constraint:

(26)    (x103[4] ≥ 0∧[98] + [-1]x103[4] ≥ 0∧[99] + [-1]x103[4] ≥ 0∧x104[4] ≥ 0∧x103[4] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4]))), ≥)∧[bni_24] = 0∧[(2)bni_24 + (-1)Bound*bni_24] + [(-1)bni_24]x103[4] ≥ 0∧0 = 0∧[(-1)bso_25] ≥ 0)

For Pair COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7]))) the following chains were created:
• We consider the chain COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7]))) which results in the following constraint:

(27)    (COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7]))≥NonInfC∧COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7]))≥1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))∧(UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))), ≥))

We simplified constraint (27) using rule (POLY_CONSTRAINTS) which results in the following new constraint:

(28)    ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))), ≥)∧[(-1)bso_27] ≥ 0)

We simplified constraint (28) using rule (IDP_POLY_SIMPLIFY) which results in the following new constraint:

(29)    ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))), ≥)∧[(-1)bso_27] ≥ 0)

We simplified constraint (29) using rule (POLY_REMOVE_MIN_MAX) which results in the following new constraint:

(30)    ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))), ≥)∧[(-1)bso_27] ≥ 0)

We simplified constraint (30) using rule (IDP_UNRESTRICTED_VARS) which results in the following new constraint:

(31)    ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))), ≥)∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧[(-1)bso_27] ≥ 0)

For Pair 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])) → COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])) the following chains were created:
• We consider the chain 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])) → COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])), COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7]))) which results in the following constraint:

(32)    (&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0))=TRUE1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])=1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7]) ⇒ 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))≥NonInfC∧1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))≥COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))∧(UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥))

We simplified constraint (32) using rules (I), (II), (IV), (IDP_BOOLEAN) which results in the following new constraint:

(33)    (>(x102[6], 0)=TRUE>=(x105[6], x104[6])=TRUE>=(x103[6], 0)=TRUE1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))≥NonInfC∧1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))≥COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))∧(UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥))

We simplified constraint (33) using rule (POLY_CONSTRAINTS) which results in the following new constraint:

(34)    (x102[6] + [-1] ≥ 0∧x105[6] + [-1]x104[6] ≥ 0∧x103[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[bni_28 + (-1)Bound*bni_28] + [(-1)bni_28]x103[6] + [bni_28]x102[6] ≥ 0∧[(-1)bso_29] ≥ 0)

We simplified constraint (34) using rule (IDP_POLY_SIMPLIFY) which results in the following new constraint:

(35)    (x102[6] + [-1] ≥ 0∧x105[6] + [-1]x104[6] ≥ 0∧x103[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[bni_28 + (-1)Bound*bni_28] + [(-1)bni_28]x103[6] + [bni_28]x102[6] ≥ 0∧[(-1)bso_29] ≥ 0)

We simplified constraint (35) using rule (POLY_REMOVE_MIN_MAX) which results in the following new constraint:

(36)    (x102[6] + [-1] ≥ 0∧x105[6] + [-1]x104[6] ≥ 0∧x103[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[bni_28 + (-1)Bound*bni_28] + [(-1)bni_28]x103[6] + [bni_28]x102[6] ≥ 0∧[(-1)bso_29] ≥ 0)

We simplified constraint (36) using rule (IDP_SMT_SPLIT) which results in the following new constraint:

(37)    (x102[6] ≥ 0∧x105[6] + [-1]x104[6] ≥ 0∧x103[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(2)bni_28 + (-1)Bound*bni_28] + [(-1)bni_28]x103[6] + [bni_28]x102[6] ≥ 0∧[(-1)bso_29] ≥ 0)

We simplified constraint (37) using rule (IDP_SMT_SPLIT) which results in the following new constraint:

(38)    (x102[6] ≥ 0∧x105[6] ≥ 0∧x103[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(2)bni_28 + (-1)Bound*bni_28] + [(-1)bni_28]x103[6] + [bni_28]x102[6] ≥ 0∧[(-1)bso_29] ≥ 0)

We simplified constraint (38) using rule (IDP_SMT_SPLIT) which results in the following new constraints:

(39)    (x102[6] ≥ 0∧x105[6] ≥ 0∧x103[6] ≥ 0∧x104[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(2)bni_28 + (-1)Bound*bni_28] + [(-1)bni_28]x103[6] + [bni_28]x102[6] ≥ 0∧[(-1)bso_29] ≥ 0)

(40)    (x102[6] ≥ 0∧x105[6] ≥ 0∧x103[6] ≥ 0∧x104[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(2)bni_28 + (-1)Bound*bni_28] + [(-1)bni_28]x103[6] + [bni_28]x102[6] ≥ 0∧[(-1)bso_29] ≥ 0)

For Pair COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3])) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3])) the following chains were created:
• We consider the chain COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3])) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3])) which results in the following constraint:

(41)    (COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3]))≥NonInfC∧COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3]))≥1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))∧(UIncreasing(1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))), ≥))

We simplified constraint (41) using rule (POLY_CONSTRAINTS) which results in the following new constraint:

(42)    ((UIncreasing(1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))), ≥)∧[(-1)bso_31] ≥ 0)

We simplified constraint (42) using rule (IDP_POLY_SIMPLIFY) which results in the following new constraint:

(43)    ((UIncreasing(1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))), ≥)∧[(-1)bso_31] ≥ 0)

We simplified constraint (43) using rule (POLY_REMOVE_MIN_MAX) which results in the following new constraint:

(44)    ((UIncreasing(1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))), ≥)∧[(-1)bso_31] ≥ 0)

We simplified constraint (44) using rule (IDP_UNRESTRICTED_VARS) which results in the following new constraint:

(45)    ((UIncreasing(1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))), ≥)∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧[(-1)bso_31] ≥ 0)

For Pair 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2])) → COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2])) the following chains were created:
• We consider the chain 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2])) → COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2])), COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3])) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3])) which results in the following constraint:

(46)    (&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1)))=TRUE1729_0_sort_GE(x102[2], x103[2], x104[2])=1729_0_sort_GE(x102[3], x103[3], x104[3]) ⇒ 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2]))≥NonInfC∧1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2]))≥COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))∧(UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥))

We simplified constraint (46) using rules (I), (II), (IV), (IDP_BOOLEAN) which results in the following new constraint:

(47)    (<=(1, +(x103[2], 1))=TRUE>=(99, +(x103[2], 1))=TRUE<=(x103[2], 99)=TRUE>(x104[2], x103[2])=TRUE>=(x103[2], 0)=TRUE1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2]))≥NonInfC∧1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2]))≥COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))∧(UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥))

We simplified constraint (47) using rule (POLY_CONSTRAINTS) which results in the following new constraint:

(48)    (x103[2] ≥ 0∧[98] + [-1]x103[2] ≥ 0∧[99] + [-1]x103[2] ≥ 0∧x104[2] + [-1] + [-1]x103[2] ≥ 0∧x103[2] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥)∧[(2)bni_32 + (-1)Bound*bni_32] + [(-1)bni_32]x103[2] + [bni_32]x102[2] ≥ 0∧[1 + (-1)bso_33] ≥ 0)

We simplified constraint (48) using rule (IDP_POLY_SIMPLIFY) which results in the following new constraint:

(49)    (x103[2] ≥ 0∧[98] + [-1]x103[2] ≥ 0∧[99] + [-1]x103[2] ≥ 0∧x104[2] + [-1] + [-1]x103[2] ≥ 0∧x103[2] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥)∧[(2)bni_32 + (-1)Bound*bni_32] + [(-1)bni_32]x103[2] + [bni_32]x102[2] ≥ 0∧[1 + (-1)bso_33] ≥ 0)

We simplified constraint (49) using rule (POLY_REMOVE_MIN_MAX) which results in the following new constraint:

(50)    (x103[2] ≥ 0∧[98] + [-1]x103[2] ≥ 0∧[99] + [-1]x103[2] ≥ 0∧x104[2] + [-1] + [-1]x103[2] ≥ 0∧x103[2] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥)∧[(2)bni_32 + (-1)Bound*bni_32] + [(-1)bni_32]x103[2] + [bni_32]x102[2] ≥ 0∧[1 + (-1)bso_33] ≥ 0)

We simplified constraint (50) using rule (IDP_UNRESTRICTED_VARS) which results in the following new constraint:

(51)    (x103[2] ≥ 0∧[98] + [-1]x103[2] ≥ 0∧[99] + [-1]x103[2] ≥ 0∧x104[2] + [-1] + [-1]x103[2] ≥ 0∧x103[2] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥)∧[bni_32] = 0∧[(2)bni_32 + (-1)Bound*bni_32] + [(-1)bni_32]x103[2] ≥ 0∧0 = 0∧[1 + (-1)bso_33] ≥ 0)

We simplified constraint (51) using rule (IDP_SMT_SPLIT) which results in the following new constraint:

(52)    (x103[2] ≥ 0∧[98] + [-1]x103[2] ≥ 0∧[99] + [-1]x103[2] ≥ 0∧x104[2] ≥ 0∧x103[2] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥)∧[bni_32] = 0∧[(2)bni_32 + (-1)Bound*bni_32] + [(-1)bni_32]x103[2] ≥ 0∧0 = 0∧[1 + (-1)bso_33] ≥ 0)

To summarize, we get the following constraints P for the following pairs.
• COND_1810_1_MAIN_INVOKEMETHOD(TRUE, 1810_0_sort_LE(x0[9], x1[9], x2[9], x3[9])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], +(x1[9], 1), -(100, x0[9])))
• ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], +(x1[9], 1), -(100, x0[9])))), ≥)∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧[(-1)bso_19] ≥ 0)

• 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8])) → COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))
• (x1[8] ≥ 0∧[98] + [-1]x1[8] ≥ 0∧x0[8] ≥ 0∧[99] + [-1]x1[8] ≥ 0∧x2[8] ≥ 0∧x1[8] ≥ 0∧x3[8] ≥ 0 ⇒ (UIncreasing(COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))), ≥)∧[(3)bni_20 + (-1)Bound*bni_20] + [(-1)bni_20]x1[8] + [bni_20]x0[8] ≥ 0∧[1 + (-1)bso_21] ≥ 0)
• (x1[8] ≥ 0∧[98] + [-1]x1[8] ≥ 0∧x0[8] ≥ 0∧[99] + [-1]x1[8] ≥ 0∧x2[8] ≥ 0∧x1[8] ≥ 0∧x3[8] ≥ 0 ⇒ (UIncreasing(COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))), ≥)∧[(3)bni_20 + (-1)Bound*bni_20] + [(-1)bni_20]x1[8] + [bni_20]x0[8] ≥ 0∧[1 + (-1)bso_21] ≥ 0)

• COND_1729_1_MAIN_INVOKEMETHOD2(TRUE, 1729_0_sort_GE(x102[5], x103[5], x104[5])) → 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]))
• ((UIncreasing(1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]))), ≥)∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧[(-1)bso_23] ≥ 0)

• 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[4], x103[4], x104[4])) → COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4]))
• (x103[4] ≥ 0∧[98] + [-1]x103[4] ≥ 0∧[99] + [-1]x103[4] ≥ 0∧x104[4] ≥ 0∧x103[4] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4]))), ≥)∧[bni_24] = 0∧[(2)bni_24 + (-1)Bound*bni_24] + [(-1)bni_24]x103[4] ≥ 0∧0 = 0∧[(-1)bso_25] ≥ 0)

• COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))
• ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))), ≥)∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧[(-1)bso_27] ≥ 0)

• 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])) → COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))
• (x102[6] ≥ 0∧x105[6] ≥ 0∧x103[6] ≥ 0∧x104[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(2)bni_28 + (-1)Bound*bni_28] + [(-1)bni_28]x103[6] + [bni_28]x102[6] ≥ 0∧[(-1)bso_29] ≥ 0)
• (x102[6] ≥ 0∧x105[6] ≥ 0∧x103[6] ≥ 0∧x104[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(2)bni_28 + (-1)Bound*bni_28] + [(-1)bni_28]x103[6] + [bni_28]x102[6] ≥ 0∧[(-1)bso_29] ≥ 0)

• COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3])) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))
• ((UIncreasing(1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))), ≥)∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧[(-1)bso_31] ≥ 0)

• 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2])) → COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))
• (x103[2] ≥ 0∧[98] + [-1]x103[2] ≥ 0∧[99] + [-1]x103[2] ≥ 0∧x104[2] ≥ 0∧x103[2] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥)∧[bni_32] = 0∧[(2)bni_32 + (-1)Bound*bni_32] + [(-1)bni_32]x103[2] ≥ 0∧0 = 0∧[1 + (-1)bso_33] ≥ 0)

The constraints for P> respective Pbound are constructed from P where we just replace every occurence of "t ≥ s" in P by "t > s" respective "t ≥ c". Here c stands for the fresh constant used for Pbound.
Using the following integer polynomial ordering the resulting constraints can be solved
Polynomial interpretation over integers[POLO]:

POL(TRUE) = 0
POL(FALSE) = 0
POL(COND_1810_1_MAIN_INVOKEMETHOD(x1, x2)) = [-1]x2
POL(1810_0_sort_LE(x1, x2, x3, x4)) = [-1] + x2 + [-1]x1
POL(1729_1_MAIN_INVOKEMETHOD(x1)) = [2] + [-1]x1
POL(1729_0_sort_GE(x1, x2, x3)) = x2 + [-1]x1
POL(+(x1, x2)) = x1 + x2
POL(1) = [1]
POL(-(x1, x2)) = x1 + [-1]x2
POL(100) = [100]
POL(1810_1_MAIN_INVOKEMETHOD(x1)) = [1] + [-1]x1
POL(&&(x1, x2)) = [-1]
POL(<(x1, x2)) = [-1]
POL(>=(x1, x2)) = [-1]
POL(0) = 0
POL(<=(x1, x2)) = [-1]
POL(99) = [99]
POL(>(x1, x2)) = [-1]
POL(COND_1729_1_MAIN_INVOKEMETHOD2(x1, x2)) = [2] + [-1]x2
POL(COND_1809_1_MAIN_INVOKEMETHOD(x1, x2)) = [-1] + x2
POL(1809_0_sort_LE(x1, x2, x3, x4)) = [2] + [-1]x2 + x1
POL(1809_1_MAIN_INVOKEMETHOD(x1)) = [-1] + x1
POL(COND_1729_1_MAIN_INVOKEMETHOD1(x1, x2)) = [1] + [-1]x2

The following pairs are in P>:

1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8])) → COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))
1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2])) → COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))

The following pairs are in Pbound:

1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8])) → COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))

The following pairs are in P:

COND_1810_1_MAIN_INVOKEMETHOD(TRUE, 1810_0_sort_LE(x0[9], x1[9], x2[9], x3[9])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], +(x1[9], 1), -(100, x0[9])))
COND_1729_1_MAIN_INVOKEMETHOD2(TRUE, 1729_0_sort_GE(x102[5], x103[5], x104[5])) → 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]))
1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[4], x103[4], x104[4])) → COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4]))
COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))
1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])) → COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))
COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3])) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))

There are no usable rules.

### (11) Obligation:

IDP problem:
The following function symbols are pre-defined:
 != ~ Neq: (Integer, Integer) -> Boolean * ~ Mul: (Integer, Integer) -> Integer >= ~ Ge: (Integer, Integer) -> Boolean -1 ~ UnaryMinus: (Integer) -> Integer | ~ Bwor: (Integer, Integer) -> Integer / ~ Div: (Integer, Integer) -> Integer = ~ Eq: (Integer, Integer) -> Boolean ~ Bwxor: (Integer, Integer) -> Integer || ~ Lor: (Boolean, Boolean) -> Boolean ! ~ Lnot: (Boolean) -> Boolean < ~ Lt: (Integer, Integer) -> Boolean - ~ Sub: (Integer, Integer) -> Integer <= ~ Le: (Integer, Integer) -> Boolean > ~ Gt: (Integer, Integer) -> Boolean ~ ~ Bwnot: (Integer) -> Integer % ~ Mod: (Integer, Integer) -> Integer & ~ Bwand: (Integer, Integer) -> Integer + ~ Add: (Integer, Integer) -> Integer && ~ Land: (Boolean, Boolean) -> Boolean

The following domains are used:

Integer, Boolean

R is empty.

The integer pair graph contains the following rules and edges:
(9): COND_1810_1_MAIN_INVOKEMETHOD(TRUE, 1810_0_sort_LE(x0[9], x1[9], x2[9], x3[9])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], x1[9] + 1, 100 - x0[9]))
(5): COND_1729_1_MAIN_INVOKEMETHOD2(TRUE, 1729_0_sort_GE(x102[5], x103[5], x104[5])) → 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]))
(4): 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[4], x103[4], x104[4])) → COND_1729_1_MAIN_INVOKEMETHOD2(x104[4] > x103[4] && x103[4] >= 0 && x103[4] <= 99 && 99 >= x103[4] + 1 && 1 <= x103[4] + 1, 1729_0_sort_GE(x102[4], x103[4], x104[4]))
(7): COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], x103[7] + 1, 100 - x102[7]))
(6): 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])) → COND_1809_1_MAIN_INVOKEMETHOD(x105[6] >= x104[6] && x103[6] >= 0 && x102[6] > 0, 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))
(3): COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3])) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))
(2): 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2])) → COND_1729_1_MAIN_INVOKEMETHOD1(x104[2] > x103[2] && x103[2] >= 0 && x103[2] <= 99 && 99 >= x103[2] + 1 && 1 <= x103[2] + 1, 1729_0_sort_GE(x102[2], x103[2], x104[2]))

(7) -> (2), if ((1729_0_sort_GE(x102[7], x103[7] + 1, 100 - x102[7]) →* 1729_0_sort_GE(x102[2], x103[2], x104[2])))

(9) -> (2), if ((1729_0_sort_GE(x0[9], x1[9] + 1, 100 - x0[9]) →* 1729_0_sort_GE(x102[2], x103[2], x104[2])))

(2) -> (3), if ((x104[2] > x103[2] && x103[2] >= 0 && x103[2] <= 99 && 99 >= x103[2] + 1 && 1 <= x103[2] + 1* TRUE)∧(1729_0_sort_GE(x102[2], x103[2], x104[2]) →* 1729_0_sort_GE(x102[3], x103[3], x104[3])))

(7) -> (4), if ((1729_0_sort_GE(x102[7], x103[7] + 1, 100 - x102[7]) →* 1729_0_sort_GE(x102[4], x103[4], x104[4])))

(9) -> (4), if ((1729_0_sort_GE(x0[9], x1[9] + 1, 100 - x0[9]) →* 1729_0_sort_GE(x102[4], x103[4], x104[4])))

(4) -> (5), if ((x104[4] > x103[4] && x103[4] >= 0 && x103[4] <= 99 && 99 >= x103[4] + 1 && 1 <= x103[4] + 1* TRUE)∧(1729_0_sort_GE(x102[4], x103[4], x104[4]) →* 1729_0_sort_GE(x102[5], x103[5], x104[5])))

(3) -> (6), if ((1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]) →* 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])))

(6) -> (7), if ((x105[6] >= x104[6] && x103[6] >= 0 && x102[6] > 0* TRUE)∧(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]) →* 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])))

The set Q is empty.

### (12) IDependencyGraphProof (EQUIVALENT transformation)

The approximation of the Dependency Graph [LPAR04,FROCOS05,EDGSTAR] contains 1 SCC with 3 less nodes.

### (13) Obligation:

IDP problem:
The following function symbols are pre-defined:
 != ~ Neq: (Integer, Integer) -> Boolean * ~ Mul: (Integer, Integer) -> Integer >= ~ Ge: (Integer, Integer) -> Boolean -1 ~ UnaryMinus: (Integer) -> Integer | ~ Bwor: (Integer, Integer) -> Integer / ~ Div: (Integer, Integer) -> Integer = ~ Eq: (Integer, Integer) -> Boolean ~ Bwxor: (Integer, Integer) -> Integer || ~ Lor: (Boolean, Boolean) -> Boolean ! ~ Lnot: (Boolean) -> Boolean < ~ Lt: (Integer, Integer) -> Boolean - ~ Sub: (Integer, Integer) -> Integer <= ~ Le: (Integer, Integer) -> Boolean > ~ Gt: (Integer, Integer) -> Boolean ~ ~ Bwnot: (Integer) -> Integer % ~ Mod: (Integer, Integer) -> Integer & ~ Bwand: (Integer, Integer) -> Integer + ~ Add: (Integer, Integer) -> Integer && ~ Land: (Boolean, Boolean) -> Boolean

The following domains are used:

Integer, Boolean

R is empty.

The integer pair graph contains the following rules and edges:
(7): COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], x103[7] + 1, 100 - x102[7]))
(6): 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])) → COND_1809_1_MAIN_INVOKEMETHOD(x105[6] >= x104[6] && x103[6] >= 0 && x102[6] > 0, 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))
(3): COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3])) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))
(2): 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2])) → COND_1729_1_MAIN_INVOKEMETHOD1(x104[2] > x103[2] && x103[2] >= 0 && x103[2] <= 99 && 99 >= x103[2] + 1 && 1 <= x103[2] + 1, 1729_0_sort_GE(x102[2], x103[2], x104[2]))

(7) -> (2), if ((1729_0_sort_GE(x102[7], x103[7] + 1, 100 - x102[7]) →* 1729_0_sort_GE(x102[2], x103[2], x104[2])))

(2) -> (3), if ((x104[2] > x103[2] && x103[2] >= 0 && x103[2] <= 99 && 99 >= x103[2] + 1 && 1 <= x103[2] + 1* TRUE)∧(1729_0_sort_GE(x102[2], x103[2], x104[2]) →* 1729_0_sort_GE(x102[3], x103[3], x104[3])))

(3) -> (6), if ((1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]) →* 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])))

(6) -> (7), if ((x105[6] >= x104[6] && x103[6] >= 0 && x102[6] > 0* TRUE)∧(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]) →* 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])))

The set Q is empty.

### (14) IDPNonInfProof (SOUND transformation)

The constraints were generated the following way:
The DP Problem is simplified using the Induction Calculus [NONINF] with the following steps:
Note that final constraints are written in bold face.

For Pair COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7]))) the following chains were created:
• We consider the chain COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7]))) which results in the following constraint:

(1)    (COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7]))≥NonInfC∧COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7]))≥1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))∧(UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))), ≥))

We simplified constraint (1) using rule (POLY_CONSTRAINTS) which results in the following new constraint:

(2)    ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))), ≥)∧[(-1)bso_14] ≥ 0)

We simplified constraint (2) using rule (IDP_POLY_SIMPLIFY) which results in the following new constraint:

(3)    ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))), ≥)∧[(-1)bso_14] ≥ 0)

We simplified constraint (3) using rule (POLY_REMOVE_MIN_MAX) which results in the following new constraint:

(4)    ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))), ≥)∧[(-1)bso_14] ≥ 0)

We simplified constraint (4) using rule (IDP_UNRESTRICTED_VARS) which results in the following new constraint:

(5)    ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))), ≥)∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧[(-1)bso_14] ≥ 0)

For Pair 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])) → COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])) the following chains were created:
• We consider the chain 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])) → COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])), COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7]))) which results in the following constraint:

(6)    (&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0))=TRUE1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])=1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7]) ⇒ 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))≥NonInfC∧1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))≥COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))∧(UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥))

We simplified constraint (6) using rules (I), (II), (IV), (IDP_BOOLEAN) which results in the following new constraint:

(7)    (>(x102[6], 0)=TRUE>=(x105[6], x104[6])=TRUE>=(x103[6], 0)=TRUE1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))≥NonInfC∧1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))≥COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))∧(UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥))

We simplified constraint (7) using rule (POLY_CONSTRAINTS) which results in the following new constraint:

(8)    (x102[6] + [-1] ≥ 0∧x105[6] + [-1]x104[6] ≥ 0∧x103[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(2)bni_15 + (-1)Bound*bni_15] + [(-1)bni_15]x103[6] ≥ 0∧[1 + (-1)bso_16] ≥ 0)

We simplified constraint (8) using rule (IDP_POLY_SIMPLIFY) which results in the following new constraint:

(9)    (x102[6] + [-1] ≥ 0∧x105[6] + [-1]x104[6] ≥ 0∧x103[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(2)bni_15 + (-1)Bound*bni_15] + [(-1)bni_15]x103[6] ≥ 0∧[1 + (-1)bso_16] ≥ 0)

We simplified constraint (9) using rule (POLY_REMOVE_MIN_MAX) which results in the following new constraint:

(10)    (x102[6] + [-1] ≥ 0∧x105[6] + [-1]x104[6] ≥ 0∧x103[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(2)bni_15 + (-1)Bound*bni_15] + [(-1)bni_15]x103[6] ≥ 0∧[1 + (-1)bso_16] ≥ 0)

We simplified constraint (10) using rule (IDP_SMT_SPLIT) which results in the following new constraint:

(11)    (x102[6] ≥ 0∧x105[6] + [-1]x104[6] ≥ 0∧x103[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(2)bni_15 + (-1)Bound*bni_15] + [(-1)bni_15]x103[6] ≥ 0∧[1 + (-1)bso_16] ≥ 0)

We simplified constraint (11) using rule (IDP_SMT_SPLIT) which results in the following new constraint:

(12)    (x102[6] ≥ 0∧x105[6] ≥ 0∧x103[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(2)bni_15 + (-1)Bound*bni_15] + [(-1)bni_15]x103[6] ≥ 0∧[1 + (-1)bso_16] ≥ 0)

We simplified constraint (12) using rule (IDP_SMT_SPLIT) which results in the following new constraints:

(13)    (x102[6] ≥ 0∧x105[6] ≥ 0∧x103[6] ≥ 0∧x104[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(2)bni_15 + (-1)Bound*bni_15] + [(-1)bni_15]x103[6] ≥ 0∧[1 + (-1)bso_16] ≥ 0)

(14)    (x102[6] ≥ 0∧x105[6] ≥ 0∧x103[6] ≥ 0∧x104[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(2)bni_15 + (-1)Bound*bni_15] + [(-1)bni_15]x103[6] ≥ 0∧[1 + (-1)bso_16] ≥ 0)

For Pair COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3])) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3])) the following chains were created:
• We consider the chain COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3])) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3])) which results in the following constraint:

(15)    (COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3]))≥NonInfC∧COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3]))≥1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))∧(UIncreasing(1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))), ≥))

We simplified constraint (15) using rule (POLY_CONSTRAINTS) which results in the following new constraint:

(16)    ((UIncreasing(1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))), ≥)∧[(-1)bso_18] ≥ 0)

We simplified constraint (16) using rule (IDP_POLY_SIMPLIFY) which results in the following new constraint:

(17)    ((UIncreasing(1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))), ≥)∧[(-1)bso_18] ≥ 0)

We simplified constraint (17) using rule (POLY_REMOVE_MIN_MAX) which results in the following new constraint:

(18)    ((UIncreasing(1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))), ≥)∧[(-1)bso_18] ≥ 0)

We simplified constraint (18) using rule (IDP_UNRESTRICTED_VARS) which results in the following new constraint:

(19)    ((UIncreasing(1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))), ≥)∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧[(-1)bso_18] ≥ 0)

For Pair 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2])) → COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2])) the following chains were created:
• We consider the chain 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2])) → COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2])), COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3])) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3])) which results in the following constraint:

(20)    (&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1)))=TRUE1729_0_sort_GE(x102[2], x103[2], x104[2])=1729_0_sort_GE(x102[3], x103[3], x104[3]) ⇒ 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2]))≥NonInfC∧1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2]))≥COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))∧(UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥))

We simplified constraint (20) using rules (I), (II), (IV), (IDP_BOOLEAN) which results in the following new constraint:

(21)    (<=(1, +(x103[2], 1))=TRUE>=(99, +(x103[2], 1))=TRUE<=(x103[2], 99)=TRUE>(x104[2], x103[2])=TRUE>=(x103[2], 0)=TRUE1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2]))≥NonInfC∧1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2]))≥COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))∧(UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥))

We simplified constraint (21) using rule (POLY_CONSTRAINTS) which results in the following new constraint:

(22)    (x103[2] ≥ 0∧[98] + [-1]x103[2] ≥ 0∧[99] + [-1]x103[2] ≥ 0∧x104[2] + [-1] + [-1]x103[2] ≥ 0∧x103[2] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥)∧[(2)bni_19 + (-1)Bound*bni_19] + [(-1)bni_19]x103[2] ≥ 0∧[(-1)bso_20] ≥ 0)

We simplified constraint (22) using rule (IDP_POLY_SIMPLIFY) which results in the following new constraint:

(23)    (x103[2] ≥ 0∧[98] + [-1]x103[2] ≥ 0∧[99] + [-1]x103[2] ≥ 0∧x104[2] + [-1] + [-1]x103[2] ≥ 0∧x103[2] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥)∧[(2)bni_19 + (-1)Bound*bni_19] + [(-1)bni_19]x103[2] ≥ 0∧[(-1)bso_20] ≥ 0)

We simplified constraint (23) using rule (POLY_REMOVE_MIN_MAX) which results in the following new constraint:

(24)    (x103[2] ≥ 0∧[98] + [-1]x103[2] ≥ 0∧[99] + [-1]x103[2] ≥ 0∧x104[2] + [-1] + [-1]x103[2] ≥ 0∧x103[2] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥)∧[(2)bni_19 + (-1)Bound*bni_19] + [(-1)bni_19]x103[2] ≥ 0∧[(-1)bso_20] ≥ 0)

We simplified constraint (24) using rule (IDP_UNRESTRICTED_VARS) which results in the following new constraint:

(25)    (x103[2] ≥ 0∧[98] + [-1]x103[2] ≥ 0∧[99] + [-1]x103[2] ≥ 0∧x104[2] + [-1] + [-1]x103[2] ≥ 0∧x103[2] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥)∧0 = 0∧[(2)bni_19 + (-1)Bound*bni_19] + [(-1)bni_19]x103[2] ≥ 0∧0 = 0∧[(-1)bso_20] ≥ 0)

We simplified constraint (25) using rule (IDP_SMT_SPLIT) which results in the following new constraint:

(26)    (x103[2] ≥ 0∧[98] + [-1]x103[2] ≥ 0∧[99] + [-1]x103[2] ≥ 0∧x104[2] ≥ 0∧x103[2] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥)∧0 = 0∧[(2)bni_19 + (-1)Bound*bni_19] + [(-1)bni_19]x103[2] ≥ 0∧0 = 0∧[(-1)bso_20] ≥ 0)

To summarize, we get the following constraints P for the following pairs.
• COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))
• ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))), ≥)∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧[(-1)bso_14] ≥ 0)

• 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])) → COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))
• (x102[6] ≥ 0∧x105[6] ≥ 0∧x103[6] ≥ 0∧x104[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(2)bni_15 + (-1)Bound*bni_15] + [(-1)bni_15]x103[6] ≥ 0∧[1 + (-1)bso_16] ≥ 0)
• (x102[6] ≥ 0∧x105[6] ≥ 0∧x103[6] ≥ 0∧x104[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(2)bni_15 + (-1)Bound*bni_15] + [(-1)bni_15]x103[6] ≥ 0∧[1 + (-1)bso_16] ≥ 0)

• COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3])) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))
• ((UIncreasing(1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))), ≥)∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧[(-1)bso_18] ≥ 0)

• 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2])) → COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))
• (x103[2] ≥ 0∧[98] + [-1]x103[2] ≥ 0∧[99] + [-1]x103[2] ≥ 0∧x104[2] ≥ 0∧x103[2] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥)∧0 = 0∧[(2)bni_19 + (-1)Bound*bni_19] + [(-1)bni_19]x103[2] ≥ 0∧0 = 0∧[(-1)bso_20] ≥ 0)

The constraints for P> respective Pbound are constructed from P where we just replace every occurence of "t ≥ s" in P by "t > s" respective "t ≥ c". Here c stands for the fresh constant used for Pbound.
Using the following integer polynomial ordering the resulting constraints can be solved
Polynomial interpretation over integers[POLO]:

POL(TRUE) = 0
POL(FALSE) = 0
POL(COND_1809_1_MAIN_INVOKEMETHOD(x1, x2)) = [-1]x2
POL(1809_0_sort_LE(x1, x2, x3, x4)) = [-1] + x2
POL(1729_1_MAIN_INVOKEMETHOD(x1)) = [2] + [-1]x1
POL(1729_0_sort_GE(x1, x2, x3)) = x2
POL(+(x1, x2)) = x1 + x2
POL(1) = [1]
POL(-(x1, x2)) = x1 + [-1]x2
POL(100) = [100]
POL(1809_1_MAIN_INVOKEMETHOD(x1)) = [1] + [-1]x1
POL(&&(x1, x2)) = 0
POL(>=(x1, x2)) = [-1]
POL(0) = 0
POL(>(x1, x2)) = [-1]
POL(COND_1729_1_MAIN_INVOKEMETHOD1(x1, x2)) = [2] + [-1]x2
POL(<=(x1, x2)) = [-1]
POL(99) = [99]

The following pairs are in P>:

1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])) → COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))

The following pairs are in Pbound:

1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2])) → COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))

The following pairs are in P:

COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))
COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3])) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))
1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2])) → COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))

There are no usable rules.

### (16) Obligation:

IDP problem:
The following function symbols are pre-defined:
 != ~ Neq: (Integer, Integer) -> Boolean * ~ Mul: (Integer, Integer) -> Integer >= ~ Ge: (Integer, Integer) -> Boolean -1 ~ UnaryMinus: (Integer) -> Integer | ~ Bwor: (Integer, Integer) -> Integer / ~ Div: (Integer, Integer) -> Integer = ~ Eq: (Integer, Integer) -> Boolean ~ Bwxor: (Integer, Integer) -> Integer || ~ Lor: (Boolean, Boolean) -> Boolean ! ~ Lnot: (Boolean) -> Boolean < ~ Lt: (Integer, Integer) -> Boolean - ~ Sub: (Integer, Integer) -> Integer <= ~ Le: (Integer, Integer) -> Boolean > ~ Gt: (Integer, Integer) -> Boolean ~ ~ Bwnot: (Integer) -> Integer % ~ Mod: (Integer, Integer) -> Integer & ~ Bwand: (Integer, Integer) -> Integer + ~ Add: (Integer, Integer) -> Integer && ~ Land: (Boolean, Boolean) -> Boolean

The following domains are used:

Integer, Boolean

R is empty.

The integer pair graph contains the following rules and edges:
(7): COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], x103[7] + 1, 100 - x102[7]))
(3): COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3])) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))
(2): 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2])) → COND_1729_1_MAIN_INVOKEMETHOD1(x104[2] > x103[2] && x103[2] >= 0 && x103[2] <= 99 && 99 >= x103[2] + 1 && 1 <= x103[2] + 1, 1729_0_sort_GE(x102[2], x103[2], x104[2]))

(7) -> (2), if ((1729_0_sort_GE(x102[7], x103[7] + 1, 100 - x102[7]) →* 1729_0_sort_GE(x102[2], x103[2], x104[2])))

(2) -> (3), if ((x104[2] > x103[2] && x103[2] >= 0 && x103[2] <= 99 && 99 >= x103[2] + 1 && 1 <= x103[2] + 1* TRUE)∧(1729_0_sort_GE(x102[2], x103[2], x104[2]) →* 1729_0_sort_GE(x102[3], x103[3], x104[3])))

The set Q is empty.

### (17) IDependencyGraphProof (EQUIVALENT transformation)

The approximation of the Dependency Graph [LPAR04,FROCOS05,EDGSTAR] contains 0 SCCs with 3 less nodes.

### (19) Obligation:

IDP problem:
The following function symbols are pre-defined:
 != ~ Neq: (Integer, Integer) -> Boolean * ~ Mul: (Integer, Integer) -> Integer >= ~ Ge: (Integer, Integer) -> Boolean -1 ~ UnaryMinus: (Integer) -> Integer | ~ Bwor: (Integer, Integer) -> Integer / ~ Div: (Integer, Integer) -> Integer = ~ Eq: (Integer, Integer) -> Boolean ~ Bwxor: (Integer, Integer) -> Integer || ~ Lor: (Boolean, Boolean) -> Boolean ! ~ Lnot: (Boolean) -> Boolean < ~ Lt: (Integer, Integer) -> Boolean - ~ Sub: (Integer, Integer) -> Integer <= ~ Le: (Integer, Integer) -> Boolean > ~ Gt: (Integer, Integer) -> Boolean ~ ~ Bwnot: (Integer) -> Integer % ~ Mod: (Integer, Integer) -> Integer & ~ Bwand: (Integer, Integer) -> Integer + ~ Add: (Integer, Integer) -> Integer && ~ Land: (Boolean, Boolean) -> Boolean

The following domains are used:

Integer, Boolean

R is empty.

The integer pair graph contains the following rules and edges:
(7): COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], x103[7] + 1, 100 - x102[7]))
(6): 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])) → COND_1809_1_MAIN_INVOKEMETHOD(x105[6] >= x104[6] && x103[6] >= 0 && x102[6] > 0, 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))
(3): COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3])) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))

(3) -> (6), if ((1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]) →* 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])))

(6) -> (7), if ((x105[6] >= x104[6] && x103[6] >= 0 && x102[6] > 0* TRUE)∧(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]) →* 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])))

The set Q is empty.

### (20) IDependencyGraphProof (EQUIVALENT transformation)

The approximation of the Dependency Graph [LPAR04,FROCOS05,EDGSTAR] contains 0 SCCs with 3 less nodes.

### (22) Obligation:

IDP problem:
The following function symbols are pre-defined:
 != ~ Neq: (Integer, Integer) -> Boolean * ~ Mul: (Integer, Integer) -> Integer >= ~ Ge: (Integer, Integer) -> Boolean -1 ~ UnaryMinus: (Integer) -> Integer | ~ Bwor: (Integer, Integer) -> Integer / ~ Div: (Integer, Integer) -> Integer = ~ Eq: (Integer, Integer) -> Boolean ~ Bwxor: (Integer, Integer) -> Integer || ~ Lor: (Boolean, Boolean) -> Boolean ! ~ Lnot: (Boolean) -> Boolean < ~ Lt: (Integer, Integer) -> Boolean - ~ Sub: (Integer, Integer) -> Integer <= ~ Le: (Integer, Integer) -> Boolean > ~ Gt: (Integer, Integer) -> Boolean ~ ~ Bwnot: (Integer) -> Integer % ~ Mod: (Integer, Integer) -> Integer & ~ Bwand: (Integer, Integer) -> Integer + ~ Add: (Integer, Integer) -> Integer && ~ Land: (Boolean, Boolean) -> Boolean

The following domains are used:

Integer, Boolean

R is empty.

The integer pair graph contains the following rules and edges:
(1): COND_1729_1_MAIN_INVOKEMETHOD(TRUE, 1729_0_sort_GE(x102[1], x103[1], x104[1])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[1] + 1, 0, 100 - x102[1] + 1))
(2): 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2])) → COND_1729_1_MAIN_INVOKEMETHOD1(x104[2] > x103[2] && x103[2] >= 0 && x103[2] <= 99 && 99 >= x103[2] + 1 && 1 <= x103[2] + 1, 1729_0_sort_GE(x102[2], x103[2], x104[2]))
(3): COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3])) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))
(4): 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[4], x103[4], x104[4])) → COND_1729_1_MAIN_INVOKEMETHOD2(x104[4] > x103[4] && x103[4] >= 0 && x103[4] <= 99 && 99 >= x103[4] + 1 && 1 <= x103[4] + 1, 1729_0_sort_GE(x102[4], x103[4], x104[4]))
(5): COND_1729_1_MAIN_INVOKEMETHOD2(TRUE, 1729_0_sort_GE(x102[5], x103[5], x104[5])) → 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]))
(6): 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])) → COND_1809_1_MAIN_INVOKEMETHOD(x105[6] >= x104[6] && x103[6] >= 0 && x102[6] > 0, 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))
(7): COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], x103[7] + 1, 100 - x102[7]))
(8): 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8])) → COND_1810_1_MAIN_INVOKEMETHOD(x3[8] < x2[8] && x1[8] >= 0 && x1[8] <= 99 && x0[8] > 0 && 99 >= x1[8] + 1 && 1 <= x1[8] + 1, 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))
(9): COND_1810_1_MAIN_INVOKEMETHOD(TRUE, 1810_0_sort_LE(x0[9], x1[9], x2[9], x3[9])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], x1[9] + 1, 100 - x0[9]))

(1) -> (2), if ((1729_0_sort_GE(x102[1] + 1, 0, 100 - x102[1] + 1) →* 1729_0_sort_GE(x102[2], x103[2], x104[2])))

(7) -> (2), if ((1729_0_sort_GE(x102[7], x103[7] + 1, 100 - x102[7]) →* 1729_0_sort_GE(x102[2], x103[2], x104[2])))

(9) -> (2), if ((1729_0_sort_GE(x0[9], x1[9] + 1, 100 - x0[9]) →* 1729_0_sort_GE(x102[2], x103[2], x104[2])))

(2) -> (3), if ((x104[2] > x103[2] && x103[2] >= 0 && x103[2] <= 99 && 99 >= x103[2] + 1 && 1 <= x103[2] + 1* TRUE)∧(1729_0_sort_GE(x102[2], x103[2], x104[2]) →* 1729_0_sort_GE(x102[3], x103[3], x104[3])))

(1) -> (4), if ((1729_0_sort_GE(x102[1] + 1, 0, 100 - x102[1] + 1) →* 1729_0_sort_GE(x102[4], x103[4], x104[4])))

(7) -> (4), if ((1729_0_sort_GE(x102[7], x103[7] + 1, 100 - x102[7]) →* 1729_0_sort_GE(x102[4], x103[4], x104[4])))

(9) -> (4), if ((1729_0_sort_GE(x0[9], x1[9] + 1, 100 - x0[9]) →* 1729_0_sort_GE(x102[4], x103[4], x104[4])))

(4) -> (5), if ((x104[4] > x103[4] && x103[4] >= 0 && x103[4] <= 99 && 99 >= x103[4] + 1 && 1 <= x103[4] + 1* TRUE)∧(1729_0_sort_GE(x102[4], x103[4], x104[4]) →* 1729_0_sort_GE(x102[5], x103[5], x104[5])))

(3) -> (6), if ((1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]) →* 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])))

(6) -> (7), if ((x105[6] >= x104[6] && x103[6] >= 0 && x102[6] > 0* TRUE)∧(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]) →* 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])))

(5) -> (8), if ((1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]) →* 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8])))

(8) -> (9), if ((x3[8] < x2[8] && x1[8] >= 0 && x1[8] <= 99 && x0[8] > 0 && 99 >= x1[8] + 1 && 1 <= x1[8] + 1* TRUE)∧(1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]) →* 1810_0_sort_LE(x0[9], x1[9], x2[9], x3[9])))

The set Q is empty.

### (23) IDependencyGraphProof (EQUIVALENT transformation)

The approximation of the Dependency Graph [LPAR04,FROCOS05,EDGSTAR] contains 1 SCC with 1 less node.

### (24) Obligation:

IDP problem:
The following function symbols are pre-defined:
 != ~ Neq: (Integer, Integer) -> Boolean * ~ Mul: (Integer, Integer) -> Integer >= ~ Ge: (Integer, Integer) -> Boolean -1 ~ UnaryMinus: (Integer) -> Integer | ~ Bwor: (Integer, Integer) -> Integer / ~ Div: (Integer, Integer) -> Integer = ~ Eq: (Integer, Integer) -> Boolean ~ Bwxor: (Integer, Integer) -> Integer || ~ Lor: (Boolean, Boolean) -> Boolean ! ~ Lnot: (Boolean) -> Boolean < ~ Lt: (Integer, Integer) -> Boolean - ~ Sub: (Integer, Integer) -> Integer <= ~ Le: (Integer, Integer) -> Boolean > ~ Gt: (Integer, Integer) -> Boolean ~ ~ Bwnot: (Integer) -> Integer % ~ Mod: (Integer, Integer) -> Integer & ~ Bwand: (Integer, Integer) -> Integer + ~ Add: (Integer, Integer) -> Integer && ~ Land: (Boolean, Boolean) -> Boolean

The following domains are used:

Integer, Boolean

R is empty.

The integer pair graph contains the following rules and edges:
(9): COND_1810_1_MAIN_INVOKEMETHOD(TRUE, 1810_0_sort_LE(x0[9], x1[9], x2[9], x3[9])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], x1[9] + 1, 100 - x0[9]))
(8): 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8])) → COND_1810_1_MAIN_INVOKEMETHOD(x3[8] < x2[8] && x1[8] >= 0 && x1[8] <= 99 && x0[8] > 0 && 99 >= x1[8] + 1 && 1 <= x1[8] + 1, 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))
(5): COND_1729_1_MAIN_INVOKEMETHOD2(TRUE, 1729_0_sort_GE(x102[5], x103[5], x104[5])) → 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]))
(4): 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[4], x103[4], x104[4])) → COND_1729_1_MAIN_INVOKEMETHOD2(x104[4] > x103[4] && x103[4] >= 0 && x103[4] <= 99 && 99 >= x103[4] + 1 && 1 <= x103[4] + 1, 1729_0_sort_GE(x102[4], x103[4], x104[4]))
(7): COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], x103[7] + 1, 100 - x102[7]))
(6): 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])) → COND_1809_1_MAIN_INVOKEMETHOD(x105[6] >= x104[6] && x103[6] >= 0 && x102[6] > 0, 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))
(3): COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3])) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))
(2): 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2])) → COND_1729_1_MAIN_INVOKEMETHOD1(x104[2] > x103[2] && x103[2] >= 0 && x103[2] <= 99 && 99 >= x103[2] + 1 && 1 <= x103[2] + 1, 1729_0_sort_GE(x102[2], x103[2], x104[2]))

(7) -> (2), if ((1729_0_sort_GE(x102[7], x103[7] + 1, 100 - x102[7]) →* 1729_0_sort_GE(x102[2], x103[2], x104[2])))

(9) -> (2), if ((1729_0_sort_GE(x0[9], x1[9] + 1, 100 - x0[9]) →* 1729_0_sort_GE(x102[2], x103[2], x104[2])))

(2) -> (3), if ((x104[2] > x103[2] && x103[2] >= 0 && x103[2] <= 99 && 99 >= x103[2] + 1 && 1 <= x103[2] + 1* TRUE)∧(1729_0_sort_GE(x102[2], x103[2], x104[2]) →* 1729_0_sort_GE(x102[3], x103[3], x104[3])))

(7) -> (4), if ((1729_0_sort_GE(x102[7], x103[7] + 1, 100 - x102[7]) →* 1729_0_sort_GE(x102[4], x103[4], x104[4])))

(9) -> (4), if ((1729_0_sort_GE(x0[9], x1[9] + 1, 100 - x0[9]) →* 1729_0_sort_GE(x102[4], x103[4], x104[4])))

(4) -> (5), if ((x104[4] > x103[4] && x103[4] >= 0 && x103[4] <= 99 && 99 >= x103[4] + 1 && 1 <= x103[4] + 1* TRUE)∧(1729_0_sort_GE(x102[4], x103[4], x104[4]) →* 1729_0_sort_GE(x102[5], x103[5], x104[5])))

(3) -> (6), if ((1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]) →* 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])))

(6) -> (7), if ((x105[6] >= x104[6] && x103[6] >= 0 && x102[6] > 0* TRUE)∧(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]) →* 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])))

(5) -> (8), if ((1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]) →* 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8])))

(8) -> (9), if ((x3[8] < x2[8] && x1[8] >= 0 && x1[8] <= 99 && x0[8] > 0 && 99 >= x1[8] + 1 && 1 <= x1[8] + 1* TRUE)∧(1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]) →* 1810_0_sort_LE(x0[9], x1[9], x2[9], x3[9])))

The set Q is empty.

### (25) IDPNonInfProof (SOUND transformation)

The constraints were generated the following way:
The DP Problem is simplified using the Induction Calculus [NONINF] with the following steps:
Note that final constraints are written in bold face.

For Pair COND_1810_1_MAIN_INVOKEMETHOD(TRUE, 1810_0_sort_LE(x0[9], x1[9], x2[9], x3[9])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], +(x1[9], 1), -(100, x0[9]))) the following chains were created:
• We consider the chain COND_1810_1_MAIN_INVOKEMETHOD(TRUE, 1810_0_sort_LE(x0[9], x1[9], x2[9], x3[9])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], +(x1[9], 1), -(100, x0[9]))) which results in the following constraint:

(1)    (COND_1810_1_MAIN_INVOKEMETHOD(TRUE, 1810_0_sort_LE(x0[9], x1[9], x2[9], x3[9]))≥NonInfC∧COND_1810_1_MAIN_INVOKEMETHOD(TRUE, 1810_0_sort_LE(x0[9], x1[9], x2[9], x3[9]))≥1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], +(x1[9], 1), -(100, x0[9])))∧(UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], +(x1[9], 1), -(100, x0[9])))), ≥))

We simplified constraint (1) using rule (POLY_CONSTRAINTS) which results in the following new constraint:

(2)    ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], +(x1[9], 1), -(100, x0[9])))), ≥)∧[(-1)bso_19] ≥ 0)

We simplified constraint (2) using rule (IDP_POLY_SIMPLIFY) which results in the following new constraint:

(3)    ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], +(x1[9], 1), -(100, x0[9])))), ≥)∧[(-1)bso_19] ≥ 0)

We simplified constraint (3) using rule (POLY_REMOVE_MIN_MAX) which results in the following new constraint:

(4)    ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], +(x1[9], 1), -(100, x0[9])))), ≥)∧[(-1)bso_19] ≥ 0)

We simplified constraint (4) using rule (IDP_UNRESTRICTED_VARS) which results in the following new constraint:

(5)    ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], +(x1[9], 1), -(100, x0[9])))), ≥)∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧[(-1)bso_19] ≥ 0)

For Pair 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8])) → COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8])) the following chains were created:
• We consider the chain 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8])) → COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8])), COND_1810_1_MAIN_INVOKEMETHOD(TRUE, 1810_0_sort_LE(x0[9], x1[9], x2[9], x3[9])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], +(x1[9], 1), -(100, x0[9]))) which results in the following constraint:

(6)    (&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1)))=TRUE1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8])=1810_0_sort_LE(x0[9], x1[9], x2[9], x3[9]) ⇒ 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))≥NonInfC∧1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))≥COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))∧(UIncreasing(COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))), ≥))

We simplified constraint (6) using rules (I), (II), (IV), (IDP_BOOLEAN) which results in the following new constraint:

(7)    (<=(1, +(x1[8], 1))=TRUE>=(99, +(x1[8], 1))=TRUE>(x0[8], 0)=TRUE<=(x1[8], 99)=TRUE<(x3[8], x2[8])=TRUE>=(x1[8], 0)=TRUE1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))≥NonInfC∧1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))≥COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))∧(UIncreasing(COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))), ≥))

We simplified constraint (7) using rule (POLY_CONSTRAINTS) which results in the following new constraint:

(8)    (x1[8] ≥ 0∧[98] + [-1]x1[8] ≥ 0∧x0[8] + [-1] ≥ 0∧[99] + [-1]x1[8] ≥ 0∧x2[8] + [-1] + [-1]x3[8] ≥ 0∧x1[8] ≥ 0 ⇒ (UIncreasing(COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))), ≥)∧[(-1)Bound*bni_20] + [(-1)bni_20]x1[8] + [bni_20]x0[8] ≥ 0∧[(-1)bso_21] ≥ 0)

We simplified constraint (8) using rule (IDP_POLY_SIMPLIFY) which results in the following new constraint:

(9)    (x1[8] ≥ 0∧[98] + [-1]x1[8] ≥ 0∧x0[8] + [-1] ≥ 0∧[99] + [-1]x1[8] ≥ 0∧x2[8] + [-1] + [-1]x3[8] ≥ 0∧x1[8] ≥ 0 ⇒ (UIncreasing(COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))), ≥)∧[(-1)Bound*bni_20] + [(-1)bni_20]x1[8] + [bni_20]x0[8] ≥ 0∧[(-1)bso_21] ≥ 0)

We simplified constraint (9) using rule (POLY_REMOVE_MIN_MAX) which results in the following new constraint:

(10)    (x1[8] ≥ 0∧[98] + [-1]x1[8] ≥ 0∧x0[8] + [-1] ≥ 0∧[99] + [-1]x1[8] ≥ 0∧x2[8] + [-1] + [-1]x3[8] ≥ 0∧x1[8] ≥ 0 ⇒ (UIncreasing(COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))), ≥)∧[(-1)Bound*bni_20] + [(-1)bni_20]x1[8] + [bni_20]x0[8] ≥ 0∧[(-1)bso_21] ≥ 0)

We simplified constraint (10) using rule (IDP_SMT_SPLIT) which results in the following new constraint:

(11)    (x1[8] ≥ 0∧[98] + [-1]x1[8] ≥ 0∧x0[8] ≥ 0∧[99] + [-1]x1[8] ≥ 0∧x2[8] + [-1] + [-1]x3[8] ≥ 0∧x1[8] ≥ 0 ⇒ (UIncreasing(COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))), ≥)∧[(-1)Bound*bni_20 + bni_20] + [(-1)bni_20]x1[8] + [bni_20]x0[8] ≥ 0∧[(-1)bso_21] ≥ 0)

We simplified constraint (11) using rule (IDP_SMT_SPLIT) which results in the following new constraint:

(12)    (x1[8] ≥ 0∧[98] + [-1]x1[8] ≥ 0∧x0[8] ≥ 0∧[99] + [-1]x1[8] ≥ 0∧x2[8] ≥ 0∧x1[8] ≥ 0 ⇒ (UIncreasing(COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))), ≥)∧[(-1)Bound*bni_20 + bni_20] + [(-1)bni_20]x1[8] + [bni_20]x0[8] ≥ 0∧[(-1)bso_21] ≥ 0)

We simplified constraint (12) using rule (IDP_SMT_SPLIT) which results in the following new constraints:

(13)    (x1[8] ≥ 0∧[98] + [-1]x1[8] ≥ 0∧x0[8] ≥ 0∧[99] + [-1]x1[8] ≥ 0∧x2[8] ≥ 0∧x1[8] ≥ 0∧x3[8] ≥ 0 ⇒ (UIncreasing(COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))), ≥)∧[(-1)Bound*bni_20 + bni_20] + [(-1)bni_20]x1[8] + [bni_20]x0[8] ≥ 0∧[(-1)bso_21] ≥ 0)

(14)    (x1[8] ≥ 0∧[98] + [-1]x1[8] ≥ 0∧x0[8] ≥ 0∧[99] + [-1]x1[8] ≥ 0∧x2[8] ≥ 0∧x1[8] ≥ 0∧x3[8] ≥ 0 ⇒ (UIncreasing(COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))), ≥)∧[(-1)Bound*bni_20 + bni_20] + [(-1)bni_20]x1[8] + [bni_20]x0[8] ≥ 0∧[(-1)bso_21] ≥ 0)

For Pair COND_1729_1_MAIN_INVOKEMETHOD2(TRUE, 1729_0_sort_GE(x102[5], x103[5], x104[5])) → 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5])) the following chains were created:
• We consider the chain COND_1729_1_MAIN_INVOKEMETHOD2(TRUE, 1729_0_sort_GE(x102[5], x103[5], x104[5])) → 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5])) which results in the following constraint:

(15)    (COND_1729_1_MAIN_INVOKEMETHOD2(TRUE, 1729_0_sort_GE(x102[5], x103[5], x104[5]))≥NonInfC∧COND_1729_1_MAIN_INVOKEMETHOD2(TRUE, 1729_0_sort_GE(x102[5], x103[5], x104[5]))≥1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]))∧(UIncreasing(1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]))), ≥))

We simplified constraint (15) using rule (POLY_CONSTRAINTS) which results in the following new constraint:

(16)    ((UIncreasing(1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]))), ≥)∧[(-1)bso_23] ≥ 0)

We simplified constraint (16) using rule (IDP_POLY_SIMPLIFY) which results in the following new constraint:

(17)    ((UIncreasing(1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]))), ≥)∧[(-1)bso_23] ≥ 0)

We simplified constraint (17) using rule (POLY_REMOVE_MIN_MAX) which results in the following new constraint:

(18)    ((UIncreasing(1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]))), ≥)∧[(-1)bso_23] ≥ 0)

We simplified constraint (18) using rule (IDP_UNRESTRICTED_VARS) which results in the following new constraint:

(19)    ((UIncreasing(1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]))), ≥)∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧[(-1)bso_23] ≥ 0)

For Pair 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[4], x103[4], x104[4])) → COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4])) the following chains were created:
• We consider the chain 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[4], x103[4], x104[4])) → COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4])), COND_1729_1_MAIN_INVOKEMETHOD2(TRUE, 1729_0_sort_GE(x102[5], x103[5], x104[5])) → 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5])) which results in the following constraint:

(20)    (&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1)))=TRUE1729_0_sort_GE(x102[4], x103[4], x104[4])=1729_0_sort_GE(x102[5], x103[5], x104[5]) ⇒ 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[4], x103[4], x104[4]))≥NonInfC∧1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[4], x103[4], x104[4]))≥COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4]))∧(UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4]))), ≥))

We simplified constraint (20) using rules (I), (II), (IV), (IDP_BOOLEAN) which results in the following new constraint:

(21)    (<=(1, +(x103[4], 1))=TRUE>=(99, +(x103[4], 1))=TRUE<=(x103[4], 99)=TRUE>(x104[4], x103[4])=TRUE>=(x103[4], 0)=TRUE1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[4], x103[4], x104[4]))≥NonInfC∧1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[4], x103[4], x104[4]))≥COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4]))∧(UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4]))), ≥))

We simplified constraint (21) using rule (POLY_CONSTRAINTS) which results in the following new constraint:

(22)    (x103[4] ≥ 0∧[98] + [-1]x103[4] ≥ 0∧[99] + [-1]x103[4] ≥ 0∧x104[4] + [-1] + [-1]x103[4] ≥ 0∧x103[4] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4]))), ≥)∧[bni_24 + (-1)Bound*bni_24] + [(-1)bni_24]x103[4] + [bni_24]x102[4] ≥ 0∧[1 + (-1)bso_25] ≥ 0)

We simplified constraint (22) using rule (IDP_POLY_SIMPLIFY) which results in the following new constraint:

(23)    (x103[4] ≥ 0∧[98] + [-1]x103[4] ≥ 0∧[99] + [-1]x103[4] ≥ 0∧x104[4] + [-1] + [-1]x103[4] ≥ 0∧x103[4] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4]))), ≥)∧[bni_24 + (-1)Bound*bni_24] + [(-1)bni_24]x103[4] + [bni_24]x102[4] ≥ 0∧[1 + (-1)bso_25] ≥ 0)

We simplified constraint (23) using rule (POLY_REMOVE_MIN_MAX) which results in the following new constraint:

(24)    (x103[4] ≥ 0∧[98] + [-1]x103[4] ≥ 0∧[99] + [-1]x103[4] ≥ 0∧x104[4] + [-1] + [-1]x103[4] ≥ 0∧x103[4] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4]))), ≥)∧[bni_24 + (-1)Bound*bni_24] + [(-1)bni_24]x103[4] + [bni_24]x102[4] ≥ 0∧[1 + (-1)bso_25] ≥ 0)

We simplified constraint (24) using rule (IDP_UNRESTRICTED_VARS) which results in the following new constraint:

(25)    (x103[4] ≥ 0∧[98] + [-1]x103[4] ≥ 0∧[99] + [-1]x103[4] ≥ 0∧x104[4] + [-1] + [-1]x103[4] ≥ 0∧x103[4] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4]))), ≥)∧[bni_24] = 0∧[bni_24 + (-1)Bound*bni_24] + [(-1)bni_24]x103[4] ≥ 0∧0 = 0∧[1 + (-1)bso_25] ≥ 0)

We simplified constraint (25) using rule (IDP_SMT_SPLIT) which results in the following new constraint:

(26)    (x103[4] ≥ 0∧[98] + [-1]x103[4] ≥ 0∧[99] + [-1]x103[4] ≥ 0∧x104[4] ≥ 0∧x103[4] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4]))), ≥)∧[bni_24] = 0∧[bni_24 + (-1)Bound*bni_24] + [(-1)bni_24]x103[4] ≥ 0∧0 = 0∧[1 + (-1)bso_25] ≥ 0)

For Pair COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7]))) the following chains were created:
• We consider the chain COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7]))) which results in the following constraint:

(27)    (COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7]))≥NonInfC∧COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7]))≥1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))∧(UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))), ≥))

We simplified constraint (27) using rule (POLY_CONSTRAINTS) which results in the following new constraint:

(28)    ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))), ≥)∧[(-1)bso_27] ≥ 0)

We simplified constraint (28) using rule (IDP_POLY_SIMPLIFY) which results in the following new constraint:

(29)    ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))), ≥)∧[(-1)bso_27] ≥ 0)

We simplified constraint (29) using rule (POLY_REMOVE_MIN_MAX) which results in the following new constraint:

(30)    ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))), ≥)∧[(-1)bso_27] ≥ 0)

We simplified constraint (30) using rule (IDP_UNRESTRICTED_VARS) which results in the following new constraint:

(31)    ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))), ≥)∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧[(-1)bso_27] ≥ 0)

For Pair 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])) → COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])) the following chains were created:
• We consider the chain 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])) → COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])), COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7]))) which results in the following constraint:

(32)    (&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0))=TRUE1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])=1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7]) ⇒ 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))≥NonInfC∧1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))≥COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))∧(UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥))

We simplified constraint (32) using rules (I), (II), (IV), (IDP_BOOLEAN) which results in the following new constraint:

(33)    (>(x102[6], 0)=TRUE>=(x105[6], x104[6])=TRUE>=(x103[6], 0)=TRUE1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))≥NonInfC∧1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))≥COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))∧(UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥))

We simplified constraint (33) using rule (POLY_CONSTRAINTS) which results in the following new constraint:

(34)    (x102[6] + [-1] ≥ 0∧x105[6] + [-1]x104[6] ≥ 0∧x103[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(-1)Bound*bni_28] + [(-1)bni_28]x103[6] + [bni_28]x102[6] ≥ 0∧[(-1)bso_29] ≥ 0)

We simplified constraint (34) using rule (IDP_POLY_SIMPLIFY) which results in the following new constraint:

(35)    (x102[6] + [-1] ≥ 0∧x105[6] + [-1]x104[6] ≥ 0∧x103[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(-1)Bound*bni_28] + [(-1)bni_28]x103[6] + [bni_28]x102[6] ≥ 0∧[(-1)bso_29] ≥ 0)

We simplified constraint (35) using rule (POLY_REMOVE_MIN_MAX) which results in the following new constraint:

(36)    (x102[6] + [-1] ≥ 0∧x105[6] + [-1]x104[6] ≥ 0∧x103[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(-1)Bound*bni_28] + [(-1)bni_28]x103[6] + [bni_28]x102[6] ≥ 0∧[(-1)bso_29] ≥ 0)

We simplified constraint (36) using rule (IDP_SMT_SPLIT) which results in the following new constraint:

(37)    (x102[6] ≥ 0∧x105[6] + [-1]x104[6] ≥ 0∧x103[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(-1)Bound*bni_28 + bni_28] + [(-1)bni_28]x103[6] + [bni_28]x102[6] ≥ 0∧[(-1)bso_29] ≥ 0)

We simplified constraint (37) using rule (IDP_SMT_SPLIT) which results in the following new constraint:

(38)    (x102[6] ≥ 0∧x105[6] ≥ 0∧x103[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(-1)Bound*bni_28 + bni_28] + [(-1)bni_28]x103[6] + [bni_28]x102[6] ≥ 0∧[(-1)bso_29] ≥ 0)

We simplified constraint (38) using rule (IDP_SMT_SPLIT) which results in the following new constraints:

(39)    (x102[6] ≥ 0∧x105[6] ≥ 0∧x103[6] ≥ 0∧x104[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(-1)Bound*bni_28 + bni_28] + [(-1)bni_28]x103[6] + [bni_28]x102[6] ≥ 0∧[(-1)bso_29] ≥ 0)

(40)    (x102[6] ≥ 0∧x105[6] ≥ 0∧x103[6] ≥ 0∧x104[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(-1)Bound*bni_28 + bni_28] + [(-1)bni_28]x103[6] + [bni_28]x102[6] ≥ 0∧[(-1)bso_29] ≥ 0)

For Pair COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3])) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3])) the following chains were created:
• We consider the chain COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3])) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3])) which results in the following constraint:

(41)    (COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3]))≥NonInfC∧COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3]))≥1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))∧(UIncreasing(1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))), ≥))

We simplified constraint (41) using rule (POLY_CONSTRAINTS) which results in the following new constraint:

(42)    ((UIncreasing(1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))), ≥)∧[1 + (-1)bso_31] ≥ 0)

We simplified constraint (42) using rule (IDP_POLY_SIMPLIFY) which results in the following new constraint:

(43)    ((UIncreasing(1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))), ≥)∧[1 + (-1)bso_31] ≥ 0)

We simplified constraint (43) using rule (POLY_REMOVE_MIN_MAX) which results in the following new constraint:

(44)    ((UIncreasing(1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))), ≥)∧[1 + (-1)bso_31] ≥ 0)

We simplified constraint (44) using rule (IDP_UNRESTRICTED_VARS) which results in the following new constraint:

(45)    ((UIncreasing(1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))), ≥)∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧[1 + (-1)bso_31] ≥ 0)

For Pair 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2])) → COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2])) the following chains were created:
• We consider the chain 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2])) → COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2])), COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3])) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3])) which results in the following constraint:

(46)    (&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1)))=TRUE1729_0_sort_GE(x102[2], x103[2], x104[2])=1729_0_sort_GE(x102[3], x103[3], x104[3]) ⇒ 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2]))≥NonInfC∧1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2]))≥COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))∧(UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥))

We simplified constraint (46) using rules (I), (II), (IV), (IDP_BOOLEAN) which results in the following new constraint:

(47)    (<=(1, +(x103[2], 1))=TRUE>=(99, +(x103[2], 1))=TRUE<=(x103[2], 99)=TRUE>(x104[2], x103[2])=TRUE>=(x103[2], 0)=TRUE1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2]))≥NonInfC∧1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2]))≥COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))∧(UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥))

We simplified constraint (47) using rule (POLY_CONSTRAINTS) which results in the following new constraint:

(48)    (x103[2] ≥ 0∧[98] + [-1]x103[2] ≥ 0∧[99] + [-1]x103[2] ≥ 0∧x104[2] + [-1] + [-1]x103[2] ≥ 0∧x103[2] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥)∧[bni_32 + (-1)Bound*bni_32] + [(-1)bni_32]x103[2] + [bni_32]x102[2] ≥ 0∧[(-1)bso_33] ≥ 0)

We simplified constraint (48) using rule (IDP_POLY_SIMPLIFY) which results in the following new constraint:

(49)    (x103[2] ≥ 0∧[98] + [-1]x103[2] ≥ 0∧[99] + [-1]x103[2] ≥ 0∧x104[2] + [-1] + [-1]x103[2] ≥ 0∧x103[2] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥)∧[bni_32 + (-1)Bound*bni_32] + [(-1)bni_32]x103[2] + [bni_32]x102[2] ≥ 0∧[(-1)bso_33] ≥ 0)

We simplified constraint (49) using rule (POLY_REMOVE_MIN_MAX) which results in the following new constraint:

(50)    (x103[2] ≥ 0∧[98] + [-1]x103[2] ≥ 0∧[99] + [-1]x103[2] ≥ 0∧x104[2] + [-1] + [-1]x103[2] ≥ 0∧x103[2] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥)∧[bni_32 + (-1)Bound*bni_32] + [(-1)bni_32]x103[2] + [bni_32]x102[2] ≥ 0∧[(-1)bso_33] ≥ 0)

We simplified constraint (50) using rule (IDP_UNRESTRICTED_VARS) which results in the following new constraint:

(51)    (x103[2] ≥ 0∧[98] + [-1]x103[2] ≥ 0∧[99] + [-1]x103[2] ≥ 0∧x104[2] + [-1] + [-1]x103[2] ≥ 0∧x103[2] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥)∧[bni_32] = 0∧[bni_32 + (-1)Bound*bni_32] + [(-1)bni_32]x103[2] ≥ 0∧0 = 0∧[(-1)bso_33] ≥ 0)

We simplified constraint (51) using rule (IDP_SMT_SPLIT) which results in the following new constraint:

(52)    (x103[2] ≥ 0∧[98] + [-1]x103[2] ≥ 0∧[99] + [-1]x103[2] ≥ 0∧x104[2] ≥ 0∧x103[2] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥)∧[bni_32] = 0∧[bni_32 + (-1)Bound*bni_32] + [(-1)bni_32]x103[2] ≥ 0∧0 = 0∧[(-1)bso_33] ≥ 0)

To summarize, we get the following constraints P for the following pairs.
• COND_1810_1_MAIN_INVOKEMETHOD(TRUE, 1810_0_sort_LE(x0[9], x1[9], x2[9], x3[9])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], +(x1[9], 1), -(100, x0[9])))
• ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], +(x1[9], 1), -(100, x0[9])))), ≥)∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧[(-1)bso_19] ≥ 0)

• 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8])) → COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))
• (x1[8] ≥ 0∧[98] + [-1]x1[8] ≥ 0∧x0[8] ≥ 0∧[99] + [-1]x1[8] ≥ 0∧x2[8] ≥ 0∧x1[8] ≥ 0∧x3[8] ≥ 0 ⇒ (UIncreasing(COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))), ≥)∧[(-1)Bound*bni_20 + bni_20] + [(-1)bni_20]x1[8] + [bni_20]x0[8] ≥ 0∧[(-1)bso_21] ≥ 0)
• (x1[8] ≥ 0∧[98] + [-1]x1[8] ≥ 0∧x0[8] ≥ 0∧[99] + [-1]x1[8] ≥ 0∧x2[8] ≥ 0∧x1[8] ≥ 0∧x3[8] ≥ 0 ⇒ (UIncreasing(COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))), ≥)∧[(-1)Bound*bni_20 + bni_20] + [(-1)bni_20]x1[8] + [bni_20]x0[8] ≥ 0∧[(-1)bso_21] ≥ 0)

• COND_1729_1_MAIN_INVOKEMETHOD2(TRUE, 1729_0_sort_GE(x102[5], x103[5], x104[5])) → 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]))
• ((UIncreasing(1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]))), ≥)∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧[(-1)bso_23] ≥ 0)

• 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[4], x103[4], x104[4])) → COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4]))
• (x103[4] ≥ 0∧[98] + [-1]x103[4] ≥ 0∧[99] + [-1]x103[4] ≥ 0∧x104[4] ≥ 0∧x103[4] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4]))), ≥)∧[bni_24] = 0∧[bni_24 + (-1)Bound*bni_24] + [(-1)bni_24]x103[4] ≥ 0∧0 = 0∧[1 + (-1)bso_25] ≥ 0)

• COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))
• ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))), ≥)∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧[(-1)bso_27] ≥ 0)

• 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])) → COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))
• (x102[6] ≥ 0∧x105[6] ≥ 0∧x103[6] ≥ 0∧x104[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(-1)Bound*bni_28 + bni_28] + [(-1)bni_28]x103[6] + [bni_28]x102[6] ≥ 0∧[(-1)bso_29] ≥ 0)
• (x102[6] ≥ 0∧x105[6] ≥ 0∧x103[6] ≥ 0∧x104[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(-1)Bound*bni_28 + bni_28] + [(-1)bni_28]x103[6] + [bni_28]x102[6] ≥ 0∧[(-1)bso_29] ≥ 0)

• COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3])) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))
• ((UIncreasing(1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))), ≥)∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧[1 + (-1)bso_31] ≥ 0)

• 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2])) → COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))
• (x103[2] ≥ 0∧[98] + [-1]x103[2] ≥ 0∧[99] + [-1]x103[2] ≥ 0∧x104[2] ≥ 0∧x103[2] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥)∧[bni_32] = 0∧[bni_32 + (-1)Bound*bni_32] + [(-1)bni_32]x103[2] ≥ 0∧0 = 0∧[(-1)bso_33] ≥ 0)

The constraints for P> respective Pbound are constructed from P where we just replace every occurence of "t ≥ s" in P by "t > s" respective "t ≥ c". Here c stands for the fresh constant used for Pbound.
Using the following integer polynomial ordering the resulting constraints can be solved
Polynomial interpretation over integers[POLO]:

POL(TRUE) = 0
POL(FALSE) = 0
POL(COND_1810_1_MAIN_INVOKEMETHOD(x1, x2)) = [1] + x2
POL(1810_0_sort_LE(x1, x2, x3, x4)) = [-1] + [-1]x2 + x1
POL(1729_1_MAIN_INVOKEMETHOD(x1)) = [1] + [-1]x1
POL(1729_0_sort_GE(x1, x2, x3)) = x2 + [-1]x1
POL(+(x1, x2)) = x1 + x2
POL(1) = [1]
POL(-(x1, x2)) = x1 + [-1]x2
POL(100) = [100]
POL(1810_1_MAIN_INVOKEMETHOD(x1)) = [1] + x1
POL(&&(x1, x2)) = [-1]
POL(<(x1, x2)) = [-1]
POL(>=(x1, x2)) = [-1]
POL(0) = 0
POL(<=(x1, x2)) = [-1]
POL(99) = [99]
POL(>(x1, x2)) = [-1]
POL(COND_1729_1_MAIN_INVOKEMETHOD2(x1, x2)) = [-1]x2
POL(COND_1809_1_MAIN_INVOKEMETHOD(x1, x2)) = [-1] + [-1]x2
POL(1809_0_sort_LE(x1, x2, x3, x4)) = [-1] + x2 + [-1]x1
POL(1809_1_MAIN_INVOKEMETHOD(x1)) = [-1] + [-1]x1
POL(COND_1729_1_MAIN_INVOKEMETHOD1(x1, x2)) = [1] + [-1]x2

The following pairs are in P>:

1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[4], x103[4], x104[4])) → COND_1729_1_MAIN_INVOKEMETHOD2(&&(&&(&&(&&(>(x104[4], x103[4]), >=(x103[4], 0)), <=(x103[4], 99)), >=(99, +(x103[4], 1))), <=(1, +(x103[4], 1))), 1729_0_sort_GE(x102[4], x103[4], x104[4]))
COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3])) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))

The following pairs are in Pbound:

1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8])) → COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))

The following pairs are in P:

COND_1810_1_MAIN_INVOKEMETHOD(TRUE, 1810_0_sort_LE(x0[9], x1[9], x2[9], x3[9])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], +(x1[9], 1), -(100, x0[9])))
1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8])) → COND_1810_1_MAIN_INVOKEMETHOD(&&(&&(&&(&&(&&(<(x3[8], x2[8]), >=(x1[8], 0)), <=(x1[8], 99)), >(x0[8], 0)), >=(99, +(x1[8], 1))), <=(1, +(x1[8], 1))), 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))
COND_1729_1_MAIN_INVOKEMETHOD2(TRUE, 1729_0_sort_GE(x102[5], x103[5], x104[5])) → 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]))
COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))
1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])) → COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))
1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2])) → COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))

There are no usable rules.

### (27) Obligation:

IDP problem:
The following function symbols are pre-defined:
 != ~ Neq: (Integer, Integer) -> Boolean * ~ Mul: (Integer, Integer) -> Integer >= ~ Ge: (Integer, Integer) -> Boolean -1 ~ UnaryMinus: (Integer) -> Integer | ~ Bwor: (Integer, Integer) -> Integer / ~ Div: (Integer, Integer) -> Integer = ~ Eq: (Integer, Integer) -> Boolean ~ Bwxor: (Integer, Integer) -> Integer || ~ Lor: (Boolean, Boolean) -> Boolean ! ~ Lnot: (Boolean) -> Boolean < ~ Lt: (Integer, Integer) -> Boolean - ~ Sub: (Integer, Integer) -> Integer <= ~ Le: (Integer, Integer) -> Boolean > ~ Gt: (Integer, Integer) -> Boolean ~ ~ Bwnot: (Integer) -> Integer % ~ Mod: (Integer, Integer) -> Integer & ~ Bwand: (Integer, Integer) -> Integer + ~ Add: (Integer, Integer) -> Integer && ~ Land: (Boolean, Boolean) -> Boolean

The following domains are used:

Integer, Boolean

R is empty.

The integer pair graph contains the following rules and edges:
(9): COND_1810_1_MAIN_INVOKEMETHOD(TRUE, 1810_0_sort_LE(x0[9], x1[9], x2[9], x3[9])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], x1[9] + 1, 100 - x0[9]))
(8): 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8])) → COND_1810_1_MAIN_INVOKEMETHOD(x3[8] < x2[8] && x1[8] >= 0 && x1[8] <= 99 && x0[8] > 0 && 99 >= x1[8] + 1 && 1 <= x1[8] + 1, 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]))
(5): COND_1729_1_MAIN_INVOKEMETHOD2(TRUE, 1729_0_sort_GE(x102[5], x103[5], x104[5])) → 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]))
(7): COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], x103[7] + 1, 100 - x102[7]))
(6): 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])) → COND_1809_1_MAIN_INVOKEMETHOD(x105[6] >= x104[6] && x103[6] >= 0 && x102[6] > 0, 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))
(2): 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2])) → COND_1729_1_MAIN_INVOKEMETHOD1(x104[2] > x103[2] && x103[2] >= 0 && x103[2] <= 99 && 99 >= x103[2] + 1 && 1 <= x103[2] + 1, 1729_0_sort_GE(x102[2], x103[2], x104[2]))

(7) -> (2), if ((1729_0_sort_GE(x102[7], x103[7] + 1, 100 - x102[7]) →* 1729_0_sort_GE(x102[2], x103[2], x104[2])))

(9) -> (2), if ((1729_0_sort_GE(x0[9], x1[9] + 1, 100 - x0[9]) →* 1729_0_sort_GE(x102[2], x103[2], x104[2])))

(6) -> (7), if ((x105[6] >= x104[6] && x103[6] >= 0 && x102[6] > 0* TRUE)∧(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]) →* 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])))

(5) -> (8), if ((1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]) →* 1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8])))

(8) -> (9), if ((x3[8] < x2[8] && x1[8] >= 0 && x1[8] <= 99 && x0[8] > 0 && 99 >= x1[8] + 1 && 1 <= x1[8] + 1* TRUE)∧(1810_0_sort_LE(x0[8], x1[8], x2[8], x3[8]) →* 1810_0_sort_LE(x0[9], x1[9], x2[9], x3[9])))

The set Q is empty.

### (28) IDependencyGraphProof (EQUIVALENT transformation)

The approximation of the Dependency Graph [LPAR04,FROCOS05,EDGSTAR] contains 0 SCCs with 6 less nodes.

### (30) Obligation:

IDP problem:
The following function symbols are pre-defined:
 != ~ Neq: (Integer, Integer) -> Boolean * ~ Mul: (Integer, Integer) -> Integer >= ~ Ge: (Integer, Integer) -> Boolean -1 ~ UnaryMinus: (Integer) -> Integer | ~ Bwor: (Integer, Integer) -> Integer / ~ Div: (Integer, Integer) -> Integer = ~ Eq: (Integer, Integer) -> Boolean ~ Bwxor: (Integer, Integer) -> Integer || ~ Lor: (Boolean, Boolean) -> Boolean ! ~ Lnot: (Boolean) -> Boolean < ~ Lt: (Integer, Integer) -> Boolean - ~ Sub: (Integer, Integer) -> Integer <= ~ Le: (Integer, Integer) -> Boolean > ~ Gt: (Integer, Integer) -> Boolean ~ ~ Bwnot: (Integer) -> Integer % ~ Mod: (Integer, Integer) -> Integer & ~ Bwand: (Integer, Integer) -> Integer + ~ Add: (Integer, Integer) -> Integer && ~ Land: (Boolean, Boolean) -> Boolean

The following domains are used:

Integer, Boolean

R is empty.

The integer pair graph contains the following rules and edges:
(9): COND_1810_1_MAIN_INVOKEMETHOD(TRUE, 1810_0_sort_LE(x0[9], x1[9], x2[9], x3[9])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x0[9], x1[9] + 1, 100 - x0[9]))
(5): COND_1729_1_MAIN_INVOKEMETHOD2(TRUE, 1729_0_sort_GE(x102[5], x103[5], x104[5])) → 1810_1_MAIN_INVOKEMETHOD(1810_0_sort_LE(x102[5], x103[5], x206[5], x207[5]))
(4): 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[4], x103[4], x104[4])) → COND_1729_1_MAIN_INVOKEMETHOD2(x104[4] > x103[4] && x103[4] >= 0 && x103[4] <= 99 && 99 >= x103[4] + 1 && 1 <= x103[4] + 1, 1729_0_sort_GE(x102[4], x103[4], x104[4]))
(7): COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], x103[7] + 1, 100 - x102[7]))
(6): 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])) → COND_1809_1_MAIN_INVOKEMETHOD(x105[6] >= x104[6] && x103[6] >= 0 && x102[6] > 0, 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))
(3): COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3])) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))
(2): 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2])) → COND_1729_1_MAIN_INVOKEMETHOD1(x104[2] > x103[2] && x103[2] >= 0 && x103[2] <= 99 && 99 >= x103[2] + 1 && 1 <= x103[2] + 1, 1729_0_sort_GE(x102[2], x103[2], x104[2]))

(7) -> (2), if ((1729_0_sort_GE(x102[7], x103[7] + 1, 100 - x102[7]) →* 1729_0_sort_GE(x102[2], x103[2], x104[2])))

(9) -> (2), if ((1729_0_sort_GE(x0[9], x1[9] + 1, 100 - x0[9]) →* 1729_0_sort_GE(x102[2], x103[2], x104[2])))

(2) -> (3), if ((x104[2] > x103[2] && x103[2] >= 0 && x103[2] <= 99 && 99 >= x103[2] + 1 && 1 <= x103[2] + 1* TRUE)∧(1729_0_sort_GE(x102[2], x103[2], x104[2]) →* 1729_0_sort_GE(x102[3], x103[3], x104[3])))

(7) -> (4), if ((1729_0_sort_GE(x102[7], x103[7] + 1, 100 - x102[7]) →* 1729_0_sort_GE(x102[4], x103[4], x104[4])))

(9) -> (4), if ((1729_0_sort_GE(x0[9], x1[9] + 1, 100 - x0[9]) →* 1729_0_sort_GE(x102[4], x103[4], x104[4])))

(4) -> (5), if ((x104[4] > x103[4] && x103[4] >= 0 && x103[4] <= 99 && 99 >= x103[4] + 1 && 1 <= x103[4] + 1* TRUE)∧(1729_0_sort_GE(x102[4], x103[4], x104[4]) →* 1729_0_sort_GE(x102[5], x103[5], x104[5])))

(3) -> (6), if ((1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]) →* 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])))

(6) -> (7), if ((x105[6] >= x104[6] && x103[6] >= 0 && x102[6] > 0* TRUE)∧(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]) →* 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])))

The set Q is empty.

### (31) IDependencyGraphProof (EQUIVALENT transformation)

The approximation of the Dependency Graph [LPAR04,FROCOS05,EDGSTAR] contains 1 SCC with 3 less nodes.

### (32) Obligation:

IDP problem:
The following function symbols are pre-defined:
 != ~ Neq: (Integer, Integer) -> Boolean * ~ Mul: (Integer, Integer) -> Integer >= ~ Ge: (Integer, Integer) -> Boolean -1 ~ UnaryMinus: (Integer) -> Integer | ~ Bwor: (Integer, Integer) -> Integer / ~ Div: (Integer, Integer) -> Integer = ~ Eq: (Integer, Integer) -> Boolean ~ Bwxor: (Integer, Integer) -> Integer || ~ Lor: (Boolean, Boolean) -> Boolean ! ~ Lnot: (Boolean) -> Boolean < ~ Lt: (Integer, Integer) -> Boolean - ~ Sub: (Integer, Integer) -> Integer <= ~ Le: (Integer, Integer) -> Boolean > ~ Gt: (Integer, Integer) -> Boolean ~ ~ Bwnot: (Integer) -> Integer % ~ Mod: (Integer, Integer) -> Integer & ~ Bwand: (Integer, Integer) -> Integer + ~ Add: (Integer, Integer) -> Integer && ~ Land: (Boolean, Boolean) -> Boolean

The following domains are used:

Integer, Boolean

R is empty.

The integer pair graph contains the following rules and edges:
(7): COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], x103[7] + 1, 100 - x102[7]))
(6): 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])) → COND_1809_1_MAIN_INVOKEMETHOD(x105[6] >= x104[6] && x103[6] >= 0 && x102[6] > 0, 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))
(3): COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3])) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))
(2): 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2])) → COND_1729_1_MAIN_INVOKEMETHOD1(x104[2] > x103[2] && x103[2] >= 0 && x103[2] <= 99 && 99 >= x103[2] + 1 && 1 <= x103[2] + 1, 1729_0_sort_GE(x102[2], x103[2], x104[2]))

(7) -> (2), if ((1729_0_sort_GE(x102[7], x103[7] + 1, 100 - x102[7]) →* 1729_0_sort_GE(x102[2], x103[2], x104[2])))

(2) -> (3), if ((x104[2] > x103[2] && x103[2] >= 0 && x103[2] <= 99 && 99 >= x103[2] + 1 && 1 <= x103[2] + 1* TRUE)∧(1729_0_sort_GE(x102[2], x103[2], x104[2]) →* 1729_0_sort_GE(x102[3], x103[3], x104[3])))

(3) -> (6), if ((1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]) →* 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])))

(6) -> (7), if ((x105[6] >= x104[6] && x103[6] >= 0 && x102[6] > 0* TRUE)∧(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]) →* 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])))

The set Q is empty.

### (33) IDPNonInfProof (SOUND transformation)

The constraints were generated the following way:
The DP Problem is simplified using the Induction Calculus [NONINF] with the following steps:
Note that final constraints are written in bold face.

For Pair COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7]))) the following chains were created:
• We consider the chain COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7]))) which results in the following constraint:

(1)    (COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7]))≥NonInfC∧COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7]))≥1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))∧(UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))), ≥))

We simplified constraint (1) using rule (POLY_CONSTRAINTS) which results in the following new constraint:

(2)    ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))), ≥)∧[(-1)bso_14] ≥ 0)

We simplified constraint (2) using rule (IDP_POLY_SIMPLIFY) which results in the following new constraint:

(3)    ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))), ≥)∧[(-1)bso_14] ≥ 0)

We simplified constraint (3) using rule (POLY_REMOVE_MIN_MAX) which results in the following new constraint:

(4)    ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))), ≥)∧[(-1)bso_14] ≥ 0)

We simplified constraint (4) using rule (IDP_UNRESTRICTED_VARS) which results in the following new constraint:

(5)    ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))), ≥)∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧[(-1)bso_14] ≥ 0)

For Pair 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])) → COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])) the following chains were created:
• We consider the chain 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])) → COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])), COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7]))) which results in the following constraint:

(6)    (&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0))=TRUE1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])=1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7]) ⇒ 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))≥NonInfC∧1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))≥COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))∧(UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥))

We simplified constraint (6) using rules (I), (II), (IV), (IDP_BOOLEAN) which results in the following new constraint:

(7)    (>(x102[6], 0)=TRUE>=(x105[6], x104[6])=TRUE>=(x103[6], 0)=TRUE1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))≥NonInfC∧1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))≥COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))∧(UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥))

We simplified constraint (7) using rule (POLY_CONSTRAINTS) which results in the following new constraint:

(8)    (x102[6] + [-1] ≥ 0∧x105[6] + [-1]x104[6] ≥ 0∧x103[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(2)bni_15 + (-1)Bound*bni_15] + [(-1)bni_15]x103[6] ≥ 0∧[1 + (-1)bso_16] ≥ 0)

We simplified constraint (8) using rule (IDP_POLY_SIMPLIFY) which results in the following new constraint:

(9)    (x102[6] + [-1] ≥ 0∧x105[6] + [-1]x104[6] ≥ 0∧x103[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(2)bni_15 + (-1)Bound*bni_15] + [(-1)bni_15]x103[6] ≥ 0∧[1 + (-1)bso_16] ≥ 0)

We simplified constraint (9) using rule (POLY_REMOVE_MIN_MAX) which results in the following new constraint:

(10)    (x102[6] + [-1] ≥ 0∧x105[6] + [-1]x104[6] ≥ 0∧x103[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(2)bni_15 + (-1)Bound*bni_15] + [(-1)bni_15]x103[6] ≥ 0∧[1 + (-1)bso_16] ≥ 0)

We simplified constraint (10) using rule (IDP_SMT_SPLIT) which results in the following new constraint:

(11)    (x102[6] ≥ 0∧x105[6] + [-1]x104[6] ≥ 0∧x103[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(2)bni_15 + (-1)Bound*bni_15] + [(-1)bni_15]x103[6] ≥ 0∧[1 + (-1)bso_16] ≥ 0)

We simplified constraint (11) using rule (IDP_SMT_SPLIT) which results in the following new constraint:

(12)    (x102[6] ≥ 0∧x105[6] ≥ 0∧x103[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(2)bni_15 + (-1)Bound*bni_15] + [(-1)bni_15]x103[6] ≥ 0∧[1 + (-1)bso_16] ≥ 0)

We simplified constraint (12) using rule (IDP_SMT_SPLIT) which results in the following new constraints:

(13)    (x102[6] ≥ 0∧x105[6] ≥ 0∧x103[6] ≥ 0∧x104[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(2)bni_15 + (-1)Bound*bni_15] + [(-1)bni_15]x103[6] ≥ 0∧[1 + (-1)bso_16] ≥ 0)

(14)    (x102[6] ≥ 0∧x105[6] ≥ 0∧x103[6] ≥ 0∧x104[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(2)bni_15 + (-1)Bound*bni_15] + [(-1)bni_15]x103[6] ≥ 0∧[1 + (-1)bso_16] ≥ 0)

For Pair COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3])) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3])) the following chains were created:
• We consider the chain COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3])) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3])) which results in the following constraint:

(15)    (COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3]))≥NonInfC∧COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3]))≥1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))∧(UIncreasing(1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))), ≥))

We simplified constraint (15) using rule (POLY_CONSTRAINTS) which results in the following new constraint:

(16)    ((UIncreasing(1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))), ≥)∧[(-1)bso_18] ≥ 0)

We simplified constraint (16) using rule (IDP_POLY_SIMPLIFY) which results in the following new constraint:

(17)    ((UIncreasing(1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))), ≥)∧[(-1)bso_18] ≥ 0)

We simplified constraint (17) using rule (POLY_REMOVE_MIN_MAX) which results in the following new constraint:

(18)    ((UIncreasing(1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))), ≥)∧[(-1)bso_18] ≥ 0)

We simplified constraint (18) using rule (IDP_UNRESTRICTED_VARS) which results in the following new constraint:

(19)    ((UIncreasing(1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))), ≥)∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧[(-1)bso_18] ≥ 0)

For Pair 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2])) → COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2])) the following chains were created:
• We consider the chain 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2])) → COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2])), COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3])) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3])) which results in the following constraint:

(20)    (&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1)))=TRUE1729_0_sort_GE(x102[2], x103[2], x104[2])=1729_0_sort_GE(x102[3], x103[3], x104[3]) ⇒ 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2]))≥NonInfC∧1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2]))≥COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))∧(UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥))

We simplified constraint (20) using rules (I), (II), (IV), (IDP_BOOLEAN) which results in the following new constraint:

(21)    (<=(1, +(x103[2], 1))=TRUE>=(99, +(x103[2], 1))=TRUE<=(x103[2], 99)=TRUE>(x104[2], x103[2])=TRUE>=(x103[2], 0)=TRUE1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2]))≥NonInfC∧1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2]))≥COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))∧(UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥))

We simplified constraint (21) using rule (POLY_CONSTRAINTS) which results in the following new constraint:

(22)    (x103[2] ≥ 0∧[98] + [-1]x103[2] ≥ 0∧[99] + [-1]x103[2] ≥ 0∧x104[2] + [-1] + [-1]x103[2] ≥ 0∧x103[2] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥)∧[(2)bni_19 + (-1)Bound*bni_19] + [(-1)bni_19]x103[2] ≥ 0∧[(-1)bso_20] ≥ 0)

We simplified constraint (22) using rule (IDP_POLY_SIMPLIFY) which results in the following new constraint:

(23)    (x103[2] ≥ 0∧[98] + [-1]x103[2] ≥ 0∧[99] + [-1]x103[2] ≥ 0∧x104[2] + [-1] + [-1]x103[2] ≥ 0∧x103[2] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥)∧[(2)bni_19 + (-1)Bound*bni_19] + [(-1)bni_19]x103[2] ≥ 0∧[(-1)bso_20] ≥ 0)

We simplified constraint (23) using rule (POLY_REMOVE_MIN_MAX) which results in the following new constraint:

(24)    (x103[2] ≥ 0∧[98] + [-1]x103[2] ≥ 0∧[99] + [-1]x103[2] ≥ 0∧x104[2] + [-1] + [-1]x103[2] ≥ 0∧x103[2] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥)∧[(2)bni_19 + (-1)Bound*bni_19] + [(-1)bni_19]x103[2] ≥ 0∧[(-1)bso_20] ≥ 0)

We simplified constraint (24) using rule (IDP_UNRESTRICTED_VARS) which results in the following new constraint:

(25)    (x103[2] ≥ 0∧[98] + [-1]x103[2] ≥ 0∧[99] + [-1]x103[2] ≥ 0∧x104[2] + [-1] + [-1]x103[2] ≥ 0∧x103[2] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥)∧0 = 0∧[(2)bni_19 + (-1)Bound*bni_19] + [(-1)bni_19]x103[2] ≥ 0∧0 = 0∧[(-1)bso_20] ≥ 0)

We simplified constraint (25) using rule (IDP_SMT_SPLIT) which results in the following new constraint:

(26)    (x103[2] ≥ 0∧[98] + [-1]x103[2] ≥ 0∧[99] + [-1]x103[2] ≥ 0∧x104[2] ≥ 0∧x103[2] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥)∧0 = 0∧[(2)bni_19 + (-1)Bound*bni_19] + [(-1)bni_19]x103[2] ≥ 0∧0 = 0∧[(-1)bso_20] ≥ 0)

To summarize, we get the following constraints P for the following pairs.
• COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))
• ((UIncreasing(1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))), ≥)∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧[(-1)bso_14] ≥ 0)

• 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])) → COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))
• (x102[6] ≥ 0∧x105[6] ≥ 0∧x103[6] ≥ 0∧x104[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(2)bni_15 + (-1)Bound*bni_15] + [(-1)bni_15]x103[6] ≥ 0∧[1 + (-1)bso_16] ≥ 0)
• (x102[6] ≥ 0∧x105[6] ≥ 0∧x103[6] ≥ 0∧x104[6] ≥ 0 ⇒ (UIncreasing(COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))), ≥)∧[(2)bni_15 + (-1)Bound*bni_15] + [(-1)bni_15]x103[6] ≥ 0∧[1 + (-1)bso_16] ≥ 0)

• COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3])) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))
• ((UIncreasing(1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))), ≥)∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧0 = 0∧[(-1)bso_18] ≥ 0)

• 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2])) → COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))
• (x103[2] ≥ 0∧[98] + [-1]x103[2] ≥ 0∧[99] + [-1]x103[2] ≥ 0∧x104[2] ≥ 0∧x103[2] ≥ 0 ⇒ (UIncreasing(COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))), ≥)∧0 = 0∧[(2)bni_19 + (-1)Bound*bni_19] + [(-1)bni_19]x103[2] ≥ 0∧0 = 0∧[(-1)bso_20] ≥ 0)

The constraints for P> respective Pbound are constructed from P where we just replace every occurence of "t ≥ s" in P by "t > s" respective "t ≥ c". Here c stands for the fresh constant used for Pbound.
Using the following integer polynomial ordering the resulting constraints can be solved
Polynomial interpretation over integers[POLO]:

POL(TRUE) = 0
POL(FALSE) = 0
POL(COND_1809_1_MAIN_INVOKEMETHOD(x1, x2)) = [-1]x2
POL(1809_0_sort_LE(x1, x2, x3, x4)) = [-1] + x2
POL(1729_1_MAIN_INVOKEMETHOD(x1)) = [2] + [-1]x1
POL(1729_0_sort_GE(x1, x2, x3)) = x2
POL(+(x1, x2)) = x1 + x2
POL(1) = [1]
POL(-(x1, x2)) = x1 + [-1]x2
POL(100) = [100]
POL(1809_1_MAIN_INVOKEMETHOD(x1)) = [1] + [-1]x1
POL(&&(x1, x2)) = 0
POL(>=(x1, x2)) = [-1]
POL(0) = 0
POL(>(x1, x2)) = [-1]
POL(COND_1729_1_MAIN_INVOKEMETHOD1(x1, x2)) = [2] + [-1]x2
POL(<=(x1, x2)) = [-1]
POL(99) = [99]

The following pairs are in P>:

1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])) → COND_1809_1_MAIN_INVOKEMETHOD(&&(&&(>=(x105[6], x104[6]), >=(x103[6], 0)), >(x102[6], 0)), 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))

The following pairs are in Pbound:

1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2])) → COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))

The following pairs are in P:

COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], +(x103[7], 1), -(100, x102[7])))
COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3])) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))
1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2])) → COND_1729_1_MAIN_INVOKEMETHOD1(&&(&&(&&(&&(>(x104[2], x103[2]), >=(x103[2], 0)), <=(x103[2], 99)), >=(99, +(x103[2], 1))), <=(1, +(x103[2], 1))), 1729_0_sort_GE(x102[2], x103[2], x104[2]))

There are no usable rules.

### (35) Obligation:

IDP problem:
The following function symbols are pre-defined:
 != ~ Neq: (Integer, Integer) -> Boolean * ~ Mul: (Integer, Integer) -> Integer >= ~ Ge: (Integer, Integer) -> Boolean -1 ~ UnaryMinus: (Integer) -> Integer | ~ Bwor: (Integer, Integer) -> Integer / ~ Div: (Integer, Integer) -> Integer = ~ Eq: (Integer, Integer) -> Boolean ~ Bwxor: (Integer, Integer) -> Integer || ~ Lor: (Boolean, Boolean) -> Boolean ! ~ Lnot: (Boolean) -> Boolean < ~ Lt: (Integer, Integer) -> Boolean - ~ Sub: (Integer, Integer) -> Integer <= ~ Le: (Integer, Integer) -> Boolean > ~ Gt: (Integer, Integer) -> Boolean ~ ~ Bwnot: (Integer) -> Integer % ~ Mod: (Integer, Integer) -> Integer & ~ Bwand: (Integer, Integer) -> Integer + ~ Add: (Integer, Integer) -> Integer && ~ Land: (Boolean, Boolean) -> Boolean

The following domains are used:

Integer, Boolean

R is empty.

The integer pair graph contains the following rules and edges:
(7): COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], x103[7] + 1, 100 - x102[7]))
(3): COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3])) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))
(2): 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[2], x103[2], x104[2])) → COND_1729_1_MAIN_INVOKEMETHOD1(x104[2] > x103[2] && x103[2] >= 0 && x103[2] <= 99 && 99 >= x103[2] + 1 && 1 <= x103[2] + 1, 1729_0_sort_GE(x102[2], x103[2], x104[2]))

(7) -> (2), if ((1729_0_sort_GE(x102[7], x103[7] + 1, 100 - x102[7]) →* 1729_0_sort_GE(x102[2], x103[2], x104[2])))

(2) -> (3), if ((x104[2] > x103[2] && x103[2] >= 0 && x103[2] <= 99 && 99 >= x103[2] + 1 && 1 <= x103[2] + 1* TRUE)∧(1729_0_sort_GE(x102[2], x103[2], x104[2]) →* 1729_0_sort_GE(x102[3], x103[3], x104[3])))

The set Q is empty.

### (36) IDependencyGraphProof (EQUIVALENT transformation)

The approximation of the Dependency Graph [LPAR04,FROCOS05,EDGSTAR] contains 0 SCCs with 3 less nodes.

### (38) Obligation:

IDP problem:
The following function symbols are pre-defined:
 != ~ Neq: (Integer, Integer) -> Boolean * ~ Mul: (Integer, Integer) -> Integer >= ~ Ge: (Integer, Integer) -> Boolean -1 ~ UnaryMinus: (Integer) -> Integer | ~ Bwor: (Integer, Integer) -> Integer / ~ Div: (Integer, Integer) -> Integer = ~ Eq: (Integer, Integer) -> Boolean ~ Bwxor: (Integer, Integer) -> Integer || ~ Lor: (Boolean, Boolean) -> Boolean ! ~ Lnot: (Boolean) -> Boolean < ~ Lt: (Integer, Integer) -> Boolean - ~ Sub: (Integer, Integer) -> Integer <= ~ Le: (Integer, Integer) -> Boolean > ~ Gt: (Integer, Integer) -> Boolean ~ ~ Bwnot: (Integer) -> Integer % ~ Mod: (Integer, Integer) -> Integer & ~ Bwand: (Integer, Integer) -> Integer + ~ Add: (Integer, Integer) -> Integer && ~ Land: (Boolean, Boolean) -> Boolean

The following domains are used:

Integer, Boolean

R is empty.

The integer pair graph contains the following rules and edges:
(7): COND_1809_1_MAIN_INVOKEMETHOD(TRUE, 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])) → 1729_1_MAIN_INVOKEMETHOD(1729_0_sort_GE(x102[7], x103[7] + 1, 100 - x102[7]))
(6): 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])) → COND_1809_1_MAIN_INVOKEMETHOD(x105[6] >= x104[6] && x103[6] >= 0 && x102[6] > 0, 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]))
(3): COND_1729_1_MAIN_INVOKEMETHOD1(TRUE, 1729_0_sort_GE(x102[3], x103[3], x104[3])) → 1809_1_MAIN_INVOKEMETHOD(1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]))

(3) -> (6), if ((1809_0_sort_LE(x102[3], x103[3], x206[3], x207[3]) →* 1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6])))

(6) -> (7), if ((x105[6] >= x104[6] && x103[6] >= 0 && x102[6] > 0* TRUE)∧(1809_0_sort_LE(x102[6], x103[6], x104[6], x105[6]) →* 1809_0_sort_LE(x102[7], x103[7], x104[7], x105[7])))

The set Q is empty.

### (39) IDependencyGraphProof (EQUIVALENT transformation)

The approximation of the Dependency Graph [LPAR04,FROCOS05,EDGSTAR] contains 0 SCCs with 3 less nodes.