One method of getting around the String Length issue is breaking down the formula into 'chunks' and replacing those chunks after setting the formula.

Let's say you have some range, named '`r`

', and you have an if condition whose parameters are each 120 bytes long:

```
r.Formula = "=IF(P_01, P_02, P_03)"
r.Replace "P_01", "Parameter 1"
r.Replace "P_02", "Parameter 2"
r.Replace "P_03", "Parameter 3"
```

Things get a bit tricky when you have very long formulas, you have to break it down in successive steps, each with their own sub-expressions.

The caveat: you cannot introduce a syntax error at any point or it shall fail. I've encountered this sufficiently enough to have code like so:

```
m_rng_CurrentListItem.Replace "C_2_", m_str_FormulaReplacement1
m_rng_CurrentListItem.Replace "C_3_", m_str_FormulaReplacement2
m_rng_CurrentListItem.Replace "C_4_", m_str_FormulaReplacement3
m_rng_CurrentListItem.Replace "C_5_", m_str_FormulaReplacement4
m_rng_CurrentListItem.Replace "R_2_", m_str_FormulaReplacement5
m_rng_CurrentListItem.Replace "C_6_", m_str_FormulaReplacement6
```

Microsoft really should fix this limitation because it's a report automation headache.

*Edit*
I decided to do a little example with this and expanded it into a few classes that can be used to represent a broader solution.

You can download it here. To best illustrate this, open the Visual Basic Editor (Alt+F11), put it to the right of your screen, excel to the left of the screen. In the worksheet select cell A1, in VBA, Go to Line 291 of the 'FormulaGeneration' module. Place a break point there. On Line 317 is a method named 'test', run that method and watch as the formula gradually progresses. Below I've placed the steps it should follow, the numbers may change.

1

```
{=F_C_35}
```

2

```
{=SUM(F_C_34)}
```

3

```
{=SUM(IF(B_O_29, L_C_33, B_O_32))}
```

4

```
{=SUM(IF(P_E_27 = P_E_28, L_C_33, B_O_32))}
```

. . . Truncated

34

```
{=SUM(IF(((TestTable3[Right Column] > 5)&(TestTable3[Right Column] < 50)&(TestTable3[Left Column] <> "Exclude Marker")&(TestTable3[Left Column] <> "Exclude Marker 19")) = (TRUE&TRUE&TRUE&TRUE), TestTable3[Right Column], L_C_30 + I_V_31))}
```

35

```
{=SUM(IF(((TestTable3[Right Column] > 5)&(TestTable3[Right Column] < 50)&(TestTable3[Left Column] <> "Exclude Marker")&(TestTable3[Left Column] <> "Exclude Marker 19")) = (TRUE&TRUE&TRUE&TRUE), TestTable3[Right Column], TestTable3[Right Column] + I_V_31))}
```

36

```
{=SUM(IF(((TestTable3[Right Column] > 5)&(TestTable3[Right Column] < 50)&(TestTable3[Left Column] <> "Exclude Marker")&(TestTable3[Left Column] <> "Exclude Marker 19")) = (TRUE&TRUE&TRUE&TRUE), TestTable3[Right Column], TestTable3[Right Column] + 100))}
```

After expanding it some to my needs (not reflected in example, and dropping the 'xl' prefix in favor of 'fg'), I've used it to create 700+ character expressions; fgRangedIndex is like so: INDEX(vArray, vRow1, [vColumn1]):Index(vArray, vRow2, [vColumn2]).

```
Set m_exp_CurrentExpression = _
fgIfCall( _
fgAndCall(fgBinaryOperation(m_nam_PreviousSelection, fgBinOpInequality, "None", True), _
fgBinaryOperation(m_nam_PreviousSelection, fgBinOpInequality, vbNullString, True)), _
fgIndexCall( _
fgRangedIndex(m_nam_PreviousList, 2, fgCountACall(m_nam_PreviousList), 1, 1), _
fgMatchCall(0, _
fgIfCall( _
fgComplexAndCondition( _
fgBinaryOperation( _
fgRangedIndex(m_nam_PreviousList, 2, fgCountACall(m_nam_PreviousList), 1, 1), fgBinOpInequality, m_nam_PreviousSelection), _
fgBinaryOperation(fgRowCall(fgRangedIndex(m_nam_PreviousList, 2, fgCountACall(m_nam_PreviousList), 1, 1)), fgBinOpGreaterThanOrEqualTo, fgRowCall()), _
fgIsNaCall(fgMatchCall(fgRangedIndex(m_nam_PreviousList, 2, fgCountACall(m_nam_PreviousList), 1, 1), _
fgRangedIndex(m_nam_CurrentName, 1, fgBinaryOperation(fgRowCall(), fgBinOpSubtraction, fgRowCall(fgIndexCall(m_nam_PreviousList, 1, 1)), True), 1, 1), 0))), 0, 1), 0), 1), vbNullString)
```

Which Yields:

```
{=IF(AND((AMBIGUATED_NAME_CRITERION_SELECTION_1 <> "None"), (AMBIGUATED_NAME_CRITERION_SELECTION_1 <> "")), INDEX((INDEX(AMBIGUATED_NAME_CRITERION_1, 2, 1):INDEX(AMBIGUATED_NAME_CRITERION_1, COUNTA(AMBIGUATED_NAME_CRITERION_1), 1)), MATCH(0, IF(((((INDEX(AMBIGUATED_NAME_CRITERION_1, 2, 1):INDEX(AMBIGUATED_NAME_CRITERION_1, COUNTA(AMBIGUATED_NAME_CRITERION_1), 1)) <> AMBIGUATED_NAME_CRITERION_SELECTION_1))&((ROW((INDEX(AMBIGUATED_NAME_CRITERION_1, 2, 1):INDEX(AMBIGUATED_NAME_CRITERION_1, COUNTA(AMBIGUATED_NAME_CRITERION_1), 1))) >= ROW()))&(ISNA(MATCH((INDEX(AMBIGUATED_NAME_CRITERION_1, 2, 1):INDEX(AMBIGUATED_NAME_CRITERION_1, COUNTA(AMBIGUATED_NAME_CRITERION_1), 1)), (INDEX(AMBIGUATED_NAME_CRITERION_2, 1, 1):INDEX(AMBIGUATED_NAME_CRITERION_2, (ROW() - ROW(INDEX(AMBIGUATED_NAME_CRITERION_1, 1, 1))), 1)), 0)))) = (TRUE&TRUE&TRUE), 0, 1), 0), 1), "")}
```

`cells(y,x).formula = "=sum(G65,H74,I38,J20,G22, .... ,K19,L22)"`

is VBA code to write into a cell. You cannot put that line into an cell and expect any response - you have to load it into the VBA editor/interpretor for it to have any effect. – Adam Davis Feb 24 '10 at 1:39