Difference between revisions of "The logic of the Catuskoti"

ABSTRACT: In early Buddhist logic, it was standard to assume that for any state of affairs  there  were four possibilities: that it held, that it did not, both, or neither. This is the '''catuskoti''' (or '''tetralemma'''). Classical logicians have had a hard time making sense of this, but it makes perfectly  good sense in the semantics of various paraconsistent logics, such as First Degree Entailment. Matters are more complicated for later Buddhist thinkers, such as Nagarjuna, who appear to suggest that none of these options, or more than one, may hold.  The point of this paper is to examine the matter, including the formal logical machinery that may be appropriate.

1 INTRODUCTION:  ENTER THE CATUSKOTI

The catuskoti 1  is a venerable principle in Buddhist logic. How it was deployed seems to have varied somewhat over the thousand-plus years of Indian Buddhism. However, it was clearly a contentious principle in the  context of Indian logic. It is equally contentious to modern commentators, though the contention here is largely in how to understand it2—including how to interpret it in terms of modern logic. As one modern commentator  puts it (Tillemans 1999, 189):

Within  Buddhist thought, the structure of argumentation that seems most resistant to our attempts at a formalization is undoubtedly the  catuskoti or tetralemma.

1 Actually, catu skoti, but I ignore the diacriticals in writing Sanskrit words, except in the ·

For a start,  the catuskoti, whatever it is, is something which sails very close to the wind of violating both the Principles of Excluded Middle  and of Non- Contradiction. Commentators who know only so-called “classical” logic, in par- ticular, are therefore thrown into a tizzy.

The point of this article is to make sense of the catuskoti from the enlightened position of paraconsistent logic. I shall not attempt to discuss all the historical thinkers who appealed to the catuskoti. I shall be concerned mainly with how it functioned in the thought of Nagarjuna and his Madhyamaka  successors. Here, its use is, perhaps, both the most sophisticated and the most puzzling.1

But let us start at the beginning. In the West, the catuskoti is often called by its Greek equivalent, the tetralemma, meaning ‘four-corners’. The four corners are four options that one might take on some question: given any question, there are four possibilities,  yes, no, both, and neither.

Who first formulated this thought seems to be lost in the mists of time, but it seems to be fairly orthodox in the intellectual circles of Gotama, the historical Buddha (c. 6c BCE). Thus, canonical Buddhist texts often set up issues in terms of these four possibilities.  For example, in the  Mijjhima-Nikaya, when the Buddha is asked about one of the profound  metaphysical  issues, the text reads as follows:2

‘How is it, Gotama? Does Gotama believe that the saint exists after death, and that this view alone is true, and every other false?’

‘Nay, Vacca. I do not hold that the saint exists after death, and that this view alone is true, and every other false.’

‘How is it, Gotama? Does Gotama believe that the saint does not exist after death, and that this view alone is true, and every other false?’

‘Nay, Vacca. I do not hold that the saint does not exist after death, and that this view alone is true, and every other false.’

‘How is it, Gotama? Does Gotama believe that the saint both exists and does not exist after death, and that this view alone is true, and every other false?’

‘Nay, Vacca. I do not hold that the saint both exists and does not exist after death, and that this view alone is true, and every other false.’

‘How is it,  Gotama? Does Gotama believe that the saint neither exists nor does not exist after death, and that this view alone is true, and every other false?’

‘Nay, Vacca. I do not hold that the saint neither exists nor does not exist after death, and that this view alone is true, and every other false.’

2 Radhakrishnan and Moore 1957, 289 f. The word ‘saint’ is a rather poor translation. It refers to someone who has attained enlightenment, a Buddha (Tathagata).

It seems clear from the dialogue that the Buddha’s interlocutor thinks of him- self as offering an exclusive and exhaustive disjunction from which to choose. True, the Buddha  never endorses any of the positions offered—on this and other similar “unanswerable” questions. But a rationale commonly offered for this is that these matters are of no soteriological importance; they are just a waste of time.1  Thus, in the Cula-Malunkyovada Sutta, we read (Thanissaro  1998):

It’s just as if a man were wounded with  an arrow thickly  smeared with  poison. His friends and companions, kinsmen and relatives would provide him with a surgeon, and the man would say, ‘I won’t have this arrow removed until I know whether the man who wounded me was a noble warrior, a priest, a merchant, or a worker.’ He would say, ‘I won’t have this arrow removed until I know the given name and clan name of the man who wounded me... until I know whether he was tall, medium, or short... until I know whether he was dark, ruddy-brown, or golden-colored... until I know his home village, town, or city...  .’  The man would die and those things would still remain unknown to him.

In the same way, if anyone were to say, ‘I won’t live  the holy life under the Blessed One as long as he does not declare to me that ‘The cosmos is eternal,’... or that ‘After death a Tathagata neither exists nor does not exist,’ the man would die and those things would still remain undeclared by the Tathagata....

So, Malunkyaputta,  remember what is undeclared by me as undeclared, and what is declared by me as declared. And what is undeclared by me? ‘The cosmos is eternal,’ is undeclared by me. ‘The cosmos is not eternal,’ is undeclared by me. ... ‘After death a Tathagata exists’... ‘After death a Tathagata does not exist’... ‘After death a Tathagata both exists and does not exist’... ‘After  death a Tathagata neither exists nor does not exist,’ is undeclared by me.

And why are they undeclared by me? Because they are not connected with the goal, are not fundamental to the holy life. They do not lead to disenchantment, dispassion, cessation, calming, direct knowledge, self-awakening, unbinding.  That’s why they are undeclared by me.

However, in some of the sutras there is a hint of something  else going on, in that the Buddha seems to explicitly reject all the options—perhaps on the ground that they have a common  false presupposition. Thus, in the Mijjhima-Nikaya, the Buddha says that none of the four kotis ‘fits the case’ in such issues. When questioned how this is possible, he says (Radhakrishnan  and Moore 1957, 290):

But Vacca, if the fire in front of you were to become extinct, would you be aware that the fire in front of you had become extinct?

Gotama, if the fire in front of me were to become extinct, I would be aware that the fire in front of me had become extinct.

But, Vacca, if someone were to ask you, ‘In which direction has the fire gone,—east, or west, or north, or south?’ what would you say O Vacca?

The question would not fit the case, Gotama. For the fire which depended on fuel of grass and wood, when all that fuel has gone, and it can get no other, being thus without nutriment, is said to be extinct.

Here lie the seeds of future complications. We will come to them in due course. For the moment, I just note that it appears to be the case that the orthodox view at the time was that the four options are mutually exclusive and exhaustive choices.1

The choice is stated more tersely and explicitly by later thinkers. For example, Aryadeva, Nagarjuna’s disciple, writes (Tillemans 1999,189):

Being, non-being, [both] being and non-being, neither being [nor] non-being: such is the method that the wise should always use with regard to identity and all other [theses].

And in the Mulamadhyamakakarika (hereafter, MMK)  Nagarjuna frequently addresses an issue by considering these four cases. Thus, in ch. XXV, he considers nirvana. First, he considers the possibility that it exists (vv.  4-6); then that it does not exist (vv.  7-8); then that it both exists and does not exist (vv.  11-14); and finally, that it neither exists nor does not (vv. 14-15). We will come back to this passage later as well.

For the moment, all we need to note is that in the beginning the  catuskoti functioned as something  like a Principle of the Excluded Fifth.  Aristotle held a principle of the Excluded Third: any statement must be either true or false; there is no third  possibility; moreover, the two  are exclusive. In a similar but more generous way, the catuskoti gives us an exhaustive and mutually exclusive set of four possibilities.

So much for the basic idea, which is clear enough. The question is how to transcribe it into the rigor of modern logic. The simple-minded thought is that for any claim, A, there are four possible cases:

(c) will wave red flags to anyone wedded to the Principle of Non-Contradiction— but the texts seem pretty explicit that you might have to give this away. There are worse problems.  Notably, assuming De Morgan’s laws, (d) is equivalent to (c), and so the two kotis collapse.  Possibly,  one might reject the Principle of Double

Negation,  so that (d) would give us only ¬A∧¬¬A. But there are worse problems.

The four cases are supposed to be exclusive;  yet case (c) entails both cases (a)

and (b). So the corners again collapse.

The obvious thought here is that we must understand (a) as saying that A is true and not false. Similarly, one must understand (b) as saying  that A is false

Even leaving aside problems about double negation,  case (c) still entails case (b).

Unsurprisingly, then, modern commentators  have tried to find other ways of expressing the catuskoti. Robinson (1956, 102 f.) suggests understanding the four corners as:

The artifice of using a quantifier is manifest. Claims such as ‘The Buddha exists after death’ and ‘The  cosmos is infinite’ have no free variable.  How, then, is a quantifier supposed to help? And why choose that particular combination of universal and particular quantifiers? Even supposing that one could smuggle a free variable into these claim somehow,  case (d) entails case (b) (and absent a misbehaviour of double negation, it entails (a) as well).

But we still have the problem of an apparently spurious quantifier. And unless double negation fails, corners (c) and (d) collapse into each other. Even if not, case (c) entails cases (a) and (b).  Moreover, Tillemans’ stated aim is to retain classical logic,1  in which case,  case (c) (and case (d)) are empty.  This hardly seems to do justice to matters.

Some commentators  have suggested using a non-classical logic.  Thus, Staal

(1975, 47) suggests using intuitionist  logic, so the corners become:

Moving to intuitionist  logic at least motivates the failure of double negation. But case (c) still entails  cases (a) and (b), and case (d) entails  case (b). To add insult to injury, cases (c) and (d) are empty.1

Westerhoff (2010, ch. 4) suggests using two kinds of negation. Let us use ×

for a second kind of negation. The four corners are then formulated as:

We still have case (c) entailing cases (a) and (b).  We can perhaps avoid this by formulating them as A ∧ ׬A and ¬A ∧ ×A. So we have:

What consequences this formulation has depends very much on how one thinks of × as working, and how, in particular, it interacts with ¬. Westerhoff  points to

the standard distinction in Indian logic between paryudasa negation and prasaja negation, the former being, essentially, predicate negation; the latter, essentially, sentential  negation. As he points out, the distinction will  not be immediately

1 This is not quite fair to Staal.  His suggestion arises in connection with  the possibility of rejecting all four kotis. We then have:

3.1  A SYNTACTIC FORMULATION

Doubtless there is more to be said about all these matters.  However, with the help of some other non-classical logics, we will now see how one can do justice to the logic of the catuskoti.

A very natural way of expressing the thought that claims are true, false, both, or neither, is with a truth predicate. So let us use T and F for the predicates ‘is

true’ and ‘is false’. Angle brackets will act as a name-forming operator. Thus, (A) is the name of A.  In fact, it begs no question to define F (A) as T (¬A); so we will do this.  Given the context, it makes  sense to assume that T (A) and F (A)

are independent of each other—this is exactly how truth  bahaves in logics with

truth value gaps and gluts; thus, from the fact that the one holds or fails follows nothing about whether the other does.  We may then define four predicates  as follows:

1 Westerhoff suggests interpreting the external negation as an illocutory negation (p.  78); that is, as the speech act of denial. (See Priest 2006b, ch. 6.) This, indeed, has a certain appeal. A problem with  the approach, however, is that  it makes no sense to put illocutory  acts in propositional contexts. Thus, the first two of the four kotis (at least as I reformulated them) make no sense. Worse: once the possibility of denying all four kotis is on the table, the rejection

of the fourth koti would have to be expressed as × × (A ∨ ¬A).  This makes no sense, since

I will call these four status predicates. The catuskoti can be formulated simply as the schema:

where S1 and S2 are any distinct status predicates.

Given that there is no logical relationship between T and F, there is no threat

that any of the cases are vacuous, or that they collapse into each other.  Thus, for example, as we have observed ¬(A ∨ ¬A)  plausibly collapses into A ∧ ¬A; but ¬(T (A) ∨ F (A)), though it entails ¬T (A) ∧ ¬F (A) does not collapse into T (A) ∧ F (A).  To see  this, just consider the following picture.  I number the

quadrants for reference:

The truths are in the left-hand side; the falsehoods are in the bottom half. To say T (A) is to say that A is in quadrant 1; to say that F (A) is to say that A is in quadrant 3. Thus, to say that ¬(T (A) ∨ F (A)) is to say that A is in quadrants

2 or 4. By contrast, to say that T (A) ∧ F (A) is to say that A is in quadrants 1

and 3, which is impossible.

There is, however, presumably more to be said about truth.  The most obvious thing is the T -schema:  T (A) ↔ A, for some appropriate biconditional (and its mate the F -schema: F (A) ↔ ¬A, which is just a special case, given our definition

of F). I do not know of any Indian textual sources that endorse this, but it seems so natural and obvious that it is plausible that it was taken for granted. In Western philosophy it has been problematised  by paradoxes  such as the Liar.  But, again as far as I know, there is no awareness of these in early Indian philosophy. A little

care must be taken with the biconditional in question. One may be tempted to reason as follows:

T (A) ↔ A T -schema

T (¬A) ↔ ¬A T -schema

(And similarly, F (¬A) ↔ ¬F (A).) If this reasoning is successful, we suffer col- lapse of the kotis. T (A), that is, T (A) ∧ ¬F (A), collapses into T (A) ∧ T (¬¬A), that is, T (A) (assuming double negation); and F (A), that is, F (A) ∧ ¬T (A), collapses into T (¬A) ∧ T (¬A), that is, F (A). So ¬(T (A) ∨ F (A)) is equivalent to ¬T (A) ∧ ¬F (A), that is, ¬T (A) ∧ ¬F (A), that is, F (A) ∧ T (A), which is equivalent to T (A) ∧ F (A).

Fortunately, then, we do not have to take the appropriate biconditional to be contraposible.1 And neither should we if we take the four corners seriously. To

say that T (¬A) is to say that A is in quadrants 3 or 4 of our diagram; whilst to say that ¬T (A) is to say that A is quadrants 2 or 3. Quite different things.

The T -schema certainly does have ramifications, however. For if quadrant 4 of our diagram is not vacuous, there are some As such that T (A)∧F (A), and so that A ∧ ¬A. We have, then, the possibility of dialetheism. As we have already noted,

however, the recognition of the possibility of this  is quite explicit in canonical statements of the catuskoti.

What, however, of the semantics of the language used to formulate the catuskoti, and the notion of validity which goes with it?2  Given the final observation of the previous section, the logic must be paraconsistent, but nothing much else seems forced on us.

Still, there is an answer that will jump out at anyone with a passing acquain- tance with the foundations of relevant logic. First Degree Entailment (FDE) is a system of logic that can be set up in many ways, but one of these is as a four-valued logic whose values are t (true only), f (false only), b (both), and n (neither). The

1 See Priest 1987, chs 4 and 5.

2 Let me be precise about the language in question. Its formulas are defined by a joint recursion. Any propositional parameter is an atomic formula; if A is any formula, T (A) is an atomic formula; if A and B are formulas, so are ¬A, A ∨ B, and A ∧ B. Given this

syntax, the specifications of the extension of T and of truth  in an interpretation may

proceed by a similar joint recursion.

Negation maps t to f , vice versa, n to itself, and b to itself. Conjunction is greatest lower bound, and disjunction is least upper bound. The set of designated values,

D, is {t, b}.1  The four corners of truth and the Hasse diagram  seem like a marriage

made for each other in a Buddhist heaven.2 So let us take FDE to provide the

semantics and logic of the language.

FDE can be characterised by the following rule system. (A double line indicates a two-way rule, and overlining indicates discharging an assumption.)3

FDE does not come furnished with the predicates T and F, so we need to say how these are to be taken to work in the context of the semantics. We are taking

F (A) to be defined  as T (¬A). So we need only concern ourselves with T (A). A thought  that suggests itself is to take  the value of T (A) to be the same  as

that of A. But that will not do, since it will validate the contraposed T -schema. Another plausible suggestion is to let T (A) be t if A is t or b, and f if A is n

of f . That would do the trick (for the moment). However, for reasons that will become clearer later, I will weaken the condition slightly. Let us require that:

1 See Priest 2008, ch. 8.

2 As observed in Garfield and Priest 2009.

3 See Priest 2002, 4.6.

These conditions generate the values illustrated in the following table for T , F ,

These truth conditions validate the formal statements of the catuskoti. Thus, consider C1:  T (A) ∨ F (A) ∨ B (A) ∨ N (A). Whatever value a sentence takes,

the limb of the disjunction stating that it takes that value will be designated, as, then, will be the disjunction. For C2: any statement of the form S1 (A) ∧ S2 (A) will  contain a sub-conjunction of the form T (A) ∧ ¬T (A) or F (A) ∧ ¬F (A).

(Given the definition of F, the second is just a special  case of the first, so just consider this.) Then ¬(S1 (A) ∧ S2 (A)) will be equivalent to a disjunction which has a part of the form T (A) ∨ ¬T (A). If A is designated,  so is the first disjunct;

if it is not, the second one is. Hence, the whole disjunction is designated.

As for the T -schema, FDE contains no real conditional connective. To keep things simple, we can take the biconditional in the Schema to be bi-entailment.

That is, A ↔ B is: A I= B and B I= A.1  The truth  conditions for T clearly now

deliver the validity of the Schema, though not its contraposed form, since we may have T (A) being t while A is b.  In this case, ¬A will be b when  ¬T (A) is f , so

The rule system for FDE can be made sound and complete with respect to T

by adding the following rules:

Call these the T rules. And call the rule system obtained by adding these to FDE, FDES. (‘S’ or status.) FDES is sound and complete with respect to the semantics. The proof of this may be found in the technical appendix to this essay.

1 FDE can be extended to contain an appropriate conditional operator, as can all the logics we will meet in this paper. I ignore this topic, since it is irrelevant for the matter at hand.

So far, so good. Things get more complicated  when we look at the way that the catuskoti is deployed in later developments in Buddhist philosophy—especially in the way it appears to be deployed in the writings of Nagarjuna and his Madhya- maka successors.

We have taken the four corners of truth to be exhaustive and mutually exclu- sive. The trouble is that we find Nagarjuna appearing to say that sometimes none of the four corners may hold. For example, he says, MMK XXII:  11, 12:1

‘Empty’ should not be asserted.

‘Non-empty; should not be asserted.

How can the tetralemma of permanent and impermanent, etc. Be true of the peaceful?

How can the tetralemma of finite, infinite, etc. Be true of the peaceful?

Having passed into nirvana, the Victorious Conqueror

Is neither said to be existent Nor said to be nonexistent. Neither both nor neither are said.

(We have already noted that there are hints of this sort of thought in some early Buddhist statements.) Rejecting all four kotis is sometimes called the ‘fourfold negation’. And just to confuse matters, the word ‘catuskoti ’ is sometimes taken to refer to this.3

To make things even more confusing, Nagarjuna  sometimes seems to say that more than one of the kotis can hold, even all of them. So MMK XVIII: 8 tells us that:

3 The Buddhist tradition was not alone in sometimes appearing to reject all of the kotis. See Raju 1953.

This is Lord Buddha’s teaching.

How are we to understand these things?—and  what does it do to the  logic of our picture? The matter is far from straightforward, and cannot be divorced from interpreting Nagarjuna. But he is a cryptic writer, and in the various com- mentarial traditions that grew up around the MMK  in India, Tibet, China, and Japan, one can find various different interpretations. When Western philosophers got their hands on Nagarjuna, matters become even more complex.1 But let me do what I can to paint a plausible picture.

Let us set aside for the moment the possibility of endorsing more than one koti—we will come to this in due course—and start with rejecting all of them. The thought that all four kotis may fail for some statement suggests that something else is to be said about it.  But nothing in Nagarjuna interpretation is straightforward, and even this has been denied. It is possible to interpret Nagarjuna as a mystic who simply thinks that ultimate reality is ineffable, and hence that any statement about the ultimate is to be rejected.  The fourfold negation is just to be understood as an illocutory rejection of each possibility.  The text, indeed, does lend some support to this view. Thus, MMK XXVII:  30 says:

I prostrate to Gautama Who through compassion Taught the true doctrine

Which leads to the relinquishing of all view.

However, one should be careful about the word that is being translated as ‘view’ here. Two Sanskrit words standardly get translated in this way, drsti and darsana. The latter simply means ‘teaching’; the former means something  like a doctrine about the objects of ultimate reality. The word in the passage I have just quoted is drsti : Nagarjuna thinks that everything is empty of self-being (svabhava ). There are no objects with  ultimate reality in this sense.  Hence,  any theory of such objects is mistaken, and so should be given up.  But Nagarjuna does not think that all teachings are to be given up. Indeed, the MMK and the writings of most of Nagarjuna’s Madhyamaka successors, contain many positive  teachings: that everything, including emptiness, is empty, is one such. Thus, MMK  XXIV:  18 tells us, famously:

Whatever is dependently co-arisen That is explained to be emptiness. That, being a dependent designation, Is itself the middle way.

You do not have to understand exactly what this means to see that a positive view about emptiness is being advocated here. It is not a mere rejection.

Let us assume, then, that  something  positive  can be said about claims for which all the kotis are rejected. They have some other status, namely, (e): none of the above. The obvious thing is then to add a new predicate to our language, E, to express this, and add it to our status predicates. The extended catuskoti then becomes:

together with all statements of the form

for our new set of status predicates.

What to say about the semantics of the extended language, and the corre- sponding notion of validity is less obvious. Perhaps the most obvious thought is to add a new value, e, to our existing four (t, f , b, and n), expressing the new status.1 Since it is the status of claims such that neither they nor their negations should be accepted,  it should obviously not be designated. Thus,  we still have

that D = {t, b}.  How are the connectives to behave with respect to e?  Both e

behave differently if the two are to represent distinct alternatives.  The simplest suggestion is to take e to be such that whenever any input has the value e, so does the output: e-in/e-out.2

The logic that results by modifying FDE in this way is obviously a sub-logic of it.  It is a proper sub-logic. It is not difficult to check that all the rules of FDE are designation-preserving except the rule for disjunction-introduction, which is not, as an obvious counter-model  shows. However, replace this with the rules:

1 As in Garfield and Priest 2009. Happily, e, there, gets interpreted as emptiness.

2 We will see that this behaviour of e falls out of a different semantics for the language in section 5.3.

where ϕ(A) and ψ(B) are any sentences containing A and B, not within the scope of angle brackets.1 Call these the ϕ Rules, and call this system FDEϕ.  FDEϕ  is sound and complete with respect to the semantics.  Details may be found in the appendix to the paper.

As for the formal conditions of the catuskoti,  we may augment the truth con- ditions for status predicates with the following for E:

There is one extra wrinkle. N (A), as defined before, was ¬T (A) ∧ ¬T (¬A). The trouble is that this condition is also satisfied when A has the value e.  Hence,

the truth table for the status predicates now becomes:

It is easy to see that T (A) ∨ F (A) ∨ B (A) ∨ N (A), may fail to be designated

(and its negation designated),  as one would expect, but that E1 is designated.

Moreover, so is every instance of E2. The arguments for the old cases are much  the same as before (though we need to bear in mind that the N has been redefined). The four new cases are:

first is. Similar arguments show that the second and third are valid too. The last, when expanded,  comes to T (A) ∨ F (A) ∨ E (A) ∨ ¬E (A), which is designated

To extend the proof theory to E, add the new rules:

Call these the E rules. And call FDEϕ  augmented by the T rules and the E rules FDEϕS. FDE ϕS  is sound and complete with respect to the semantics. Details of the proof can be found in the appendix to this paper.

So much, for the moment, for formal matters. It is time to return to philo- sophical issues.

The previous section notwithstanding, I think  that it is wrong to take  Na- garjuna to reject instances of our original catuskoti. For a start, authoritative exegetes of Madhyamaka,  such as Candrakirti and Tsong kha pa are quite explicit to the effect that  there is no fifth  possibility.1    Moreover, there are important reasons why this should be so. The central concern of the MMK  is to establish that everything is empty of self-existence (svabhava ), and the ramifications of this fact. The main part of the work consists of a series of chapters which aim to es- tablish, of all the things which one might plausibly take to have svabhava (causes, the self, suffering, etc.), that they do not do so. The method of argument is not always exactly the same, but there is a general pattern. Cases of the catuskoti are enumerated, and each one is then rejected. We have, thus, some kind of reductio argument. This much is generally agreed by most commentators.

Now, let us come back to the argument concerning nirvana that we met briefly in section 2 (MMK  XXV). Verse 3 tells us that nirvana is empty:

(3) Unrelinquished, unattained, Unannihilated, not permanent, Unarisen, unceased:

This is how nirvana is described.

There then follow the arguments for this, based on the four kotis. (Each of the cases has a number of different reasons. I quote only one for each.)

(5) If nirvana were existent, Nirvana would be compounded A non-compounded existent Does not exist anywhere

1 See Candrakirti 2003, IIa-b, and Tsong kha pa 2006, 50-54.

(8) If nirvana were not existent,

How could nirvana be nondependent? Whatever is nondependent

Is not nonexistent.

(13) How could nirvana

Be both existent and non-existent? Nirvana is noncompounded.

Both existents and nonexistents are compounded.

(16) If nirvana is

Neither existent nor nonexistent, Then by whom is it expounded

‘Neither existent nor non-existent’ ?

We then get the four-cornered negation:

(17) Having passed into nirvana, the Victorious Conqueror

Is neither said to be existent Nor said to be non-existent. Neither both nor neither are said.

Now, how, exactly, is this argument  supposed  to work?  If it’s a reductio, it’s a reductio  of something. Presumably, the claim that nirvana has svabhava. This assumption must be appealed to somewhere in the cases for the reductio to work.  And typically  it is.  Thus in (13) above we have the claim that nirvana is non-compounded. Why is this?  It follows from the fact that  nirvana has svabhava :  entities with svabhava entities are not compounded. Since the four cases are impossible on the assumption that nirvana has svabhava, we are entitled to conclude at the end of the argument  that it is not.  Looked at in this way, it is clear that if the four cases of the catuskoti do not exhaust all the relevant possibilities, the argument does not work. There is a fifth case to be considered, and maybe that’s the relevant one. Of course, Nagarjuna  was capable of producing bad arguments, like all great philosophers. But to repeat such as screamer as this, time and time again, just doesn’t seem very plausible.

Much more plausible, it would seem, is this. When we get a statement of the fourfold negation, it is not a categorical assertion. Rather, it is a consequence of the assumption that something  has svabhava. Since these are the only four cases, we apply a perfectly standard reductio, and conclude that the thing in question does not have svabhava.

While we are on the subject of reductio, and since we are taking advantage of a paraconsistent logic—indeed, the possibility of dialetheism—let me add an extra word about this. Some commentators  have argued that Nagarjuna subscribed to the Principle of Non-Contradiction. Thus, for example, Robinson  endorses this view.  In support  of it,  he quotes MMK  VII:  30 and VIII: 7.1  These passages occur in the midst of rejecting one of the kotis of the catuskoti for the subject being discussed (conditioned objects, and agents/actions, respectively), and read, respectively:

Moreover, for an existent thing

Cessation is not tenable.

A single thing being an entity and

An existent and nonexistent agent

Does not perform an existent and nonexistent action.

Existence and non-existence cannot pertain to the same thing. For how could they exist together?

Now, these quotations hardly prove the point, for a couple of reasons.  The first is that each is an instance  of the Principle of Non-Contradiction.  Notoriously, one cannot prove a universal generalisation from a couple of examples. It is quite possible that Nagarjuna simply thought that one of the other kotis was applicable in these particular cases. Secondly, if I am right about how to analyse the structure of the reductio arguments in the relevant chapters of the MMK, the rejection of the contradictions here is subject to an assumption: that conditioned objects (VII) and agents/actions (VIII) have  svabhava. This tells us nothing about the (true) situation when they are not.

possibly be taken to be valid if some contradictions  are true? How can a conclu- sion be used to rule out the assumption of an argument if that conclusion might be true?  Several points are pertinent here. The first is that reductio  is reductio ad absurdum, not reductio ad contradictionem. The argument is taken to rule out its assumption  because the conclusion is taken to be unacceptable.  The unaccept- ability does not have to be a contradiction.3  Thus, look at the first of the horns of the reductio about nirvana, quoted above (MMK  XXV: 8). The unacceptable conclusion is simply that something is uncompounded. The unacceptability of this is grounded, presumably, on other considerations. Conversely, not all contra- dictions are absurd. That I am a frog and not a frog, clearly is, since it entails

2 Articulated, for example, by Siderits 2008.

that I am a frog—which should certainly be rejected. But that the liar sentence is both true and not true is not clearly absurd. Contemporary dialetheists about the semantic paradoxes hold it to be true. Many simple claims, such as that I am a frog, are much more absurd than this.1

The second point concerns the following question. We have been talking about acceptability—but acceptability to whom? The MMK is a highly polemical work. Though he never cites them, Nagarjuna clearly has certain opponents in his sights. These were, presumably,  denizens of the other schools of Indian thought, both Buddhist and non-Buddhist, who were active in this turbulent intellectual period. Now, in a dialectical context of that kind, for an argument to work, it is not neces- sary that Nagarjuna himself takes the conclusion in question, be it a contradiction or something  else, to be unacceptable:  he may or he may not. The argument will work if the opponent takes it to be so. (This is exactly how the arguments of a Pyrrhonian skeptic are supposed to get their bite.)  And certainly, a number of the schools around at the time, such as the Nyaya, would have subscribed firmly to the  Principle of Non-Contradiction.  Hence, nothing about Nagarjuna’s own view about the possibility of something satisfying the third koti of the catuskoti can be inferred from his use of reductio arguments.

Doubtless there is more to be said about these matters.  But it is time to return from the digression.

Let us now set aside e, E, and their machinations, and revert to the familiar four values of the catuskoti for the time being. We still have to consider the even more vexed issue flagged earlier: Nagarjuna sometimes appears to say that more than one of the kotis may obtain. What is one to make of this? The assertion  seems to fly in the face of the exclusiveness of the kotis.

First, when contradictions  occur in Buddhist writings there is always the op- tion of interpreting them in such a way as to render them consistent. In partic- ular, there is a standard distinction in later Buddhism between conventional and ultimate truth,  and one can use this to disambiguate apparently contradictory statements. Thus, for example, in the Diamond Sutra we read things such as:2

The very same perfection of insight, Subhuti, which the Realized One has preached is indeed perfectionless.

One plausible way to interpret this is as saying  that ‘insight is a perfection’ is conventionally true, but ultimately false. However, this is a strategy that does

2 Vajracchedika 13b. Translation from Harrison 2006.

not work on all occasions.1  Following Tsong kha pa, one might, nonetheless, try to employ it with the example from the MMK cited in 4.1,2 to obtain:

Everything is real [conventionally] and is not real [ultimately]. Both real [conventionally] and not real [ultimately],

Neither real [ultimately] nor not real [conventionally]. This is Lord Buddha’s teaching.

But, though one may certainly interpret the text this way, there is nothing in the text, either in the use of the Sanskrit or the context in which the remark appears, that forces this interpretation; and it certainly is not clearly the optimal strategy. As Tillemans says (1999, 197):

Indisputably,  Tsong kha pa’s interpretation  offers  advantages  in terms of its logical clarity, but as an exegesis of Madhyamaka, his approach may seem somewhat inelegant, since it obliges us to add words almost everywhere in Madhyamaka texts. Remarkably, Tsong kha pa himself accomplishes this project  down to its most minute details in his commentary on the  Madhyamakakarikas —perhaps at the price of sacrificing the simplicity of Nagarjuna’s language. Hence, is there a more elegant interpretation of the tetralemma... ?3

Let us see if we can find one. Suppose that we take the endorsement of more than one koti at face value. How may we understand  it?

One possibility, which has an undeniable self-referential charm is this.  At issue is the question of whether the four kotis are mutually exclusive. Apply the catuskoti to this claim itself. There are four possibilities: They are, they are not, they both are and are not, or they neither are or are not. The correct option in this case is the third:  they are and are not. We can endorse the claim that they are exclusive, and that they are not.

Indeed, exactly this outcome is delivered by the semantics of section 3.2! As we observed there, these semantics verify every statement of the form C2. But now, consider any statement to the effect that A satisfies more than one of the kotis—to illustrate with the extreme  case, all of them. This is equivalent to a conjunction

of the form T (A) ∧ ¬T (A) ∧ F (A) ∧ ¬F (A).  Let A have the value b. Then T (A) and F (A) are both designated.  Let them take the value b.  Then ¬T (A) and ¬F (A) both take the value  b as well. Hence the whole conjunction takes the

1 See Deguchi, Garfield, and Priest 2008.

2 As suggested in Garfield 1995, 250, and Garfield and Priest 2003, 13-14.

3 Tillemans’ sentiments are endorsed by Westerhoff 2010, 90. Westerhoff opts for invoking the doctrine of upaya (skillful means). Each of the four kotis is appropriately taught to someone on the Buddhist path at different stages of their development, though only the last is (perhaps) ultimately true. I can only say that the verse of the MMK in question would seem to be a most misleading way of saying that!

that, under the same conditions,  the sentence ¬(T (A) ∨ F (A) ∨ B (A) ∨ N (A))

that none of the kotis may hold—even though one of them does.

when A takes the value b (something I was careful to make possible). But this

is not special pleading: there are independent reasons to suppose that this can happen—when, for example, A is a paradoxical  sentence of the form ¬T (A).1

It might  be thought  that this is not taking the non-exclusive nature of the kotis seriously. At the semantic level, there are, after all, four values, t, f , b, and n; and every statement takes exactly one of these. Can we build the thought that these values are not exclusive into the picture?

We can. In classical logic, evaluations of formulas are functions which map sentences to one of the values 1 and 0.  In one semantics for FDE, evaluations are thought of, not as functions, but as relations, which relate sentences to some number of these values. This gives the four possibilities represented by the four values of our many-valued logic.2

We may do exactly the same with the values t, b, n, and f themselves.  So if

P is the set of propositional parameters, and V = {t, b, n, f }, an evaluation is a

relation, ρ, between P and V . In the case at hand, we want to insist that every

formula has at least one of these values, that is, the values are exhaustive:

If we denote the many-valued truth functions corresponding to the connectives

all formulas is given by the clauses:

That  is, an inference is valid if it preserves  the property of relating to some

designated value. A is a logical truth iff is a consequence of the empty set. That is, for every ρ, there is some v ∈ D such that Aρv.

Perhaps surprisingly, validity on this definition coincides with validity in FDE.1

This is proved by showing that the rules of FDE are sound and complete with respect to the semantics,  as done in the technical appendix to the paper.

As for the truth  predicate, a simple generalisation of its truth  conditions to the present context is:

(So any sentence of the form T (A) relates to at least one value as well.)  The table in 3.2 can now be interpreted as showing  a value that S (A) relates to, given

what A relates to, where S is any status predicate.

It is easy to see that these conditions validate the T -schema—but not its con- traposed form. As for the formal catuskoti conditions, the semantics still validate C1.  Every sentence, A, relates to at least some value. Whatever value that is, the limb of the disjunction stating that it takes that value will be designated, as, then, will be the disjunction.

Perhaps more surprisingly, every statement of C2 is also valid. Each of these is the negation of a conjunction, and two  of the conjuncts will be of the form

T (A) ∧ ¬T (A) or F (A) ∧ ¬F (A). Suppose it is the first. (Given the definition

of  F, the second is just a special  case of the first.)  Then the sentence will be equivalent  to a disjunction which has a part of the form T (A) ∨ ¬T (A).  A

relates to at least one value. If this is designated, the first disjunct relates to a designated value; if it is not, the second one does. Hence, the disjunction relates to a designated value.

Notwithstanding this, a sentence stating that A has more that one koti can also be true. Thus, suppose that on some evaluation  A relates to t, b, and n. Consider

conjunction relates to designated values. The argument clearly generalises to any set of the four values. And as in the many-valued  case, ¬(T (A) ∨ F (A) ∨ B (A) ∨ N (A)) may be true. (Let T (A) and T (A) both relate to b.)

FDES is, in fact, sound and complete with respect to these semantics.  This is shown in the technical appendix to the paper.

Finally, let us return to the possibility that none of the kotis may hold. In 4.2, we handled this possibility by adding a fifth value, e.  The relational semantics suggests a different way of proceeding. We simply drop the exhaustivity condition, Exh, so allowing  the possibility that an evaluation may relate a parameter to none of the four values. The logic this gives is exactly FDEϕ.  A proof of this fact can be found in the technical appendix to the paper. (In fact, if we require that every formula relates to at most one value, then it is easy to see that we simply have a reformulation of the 5-valued semantics, since taking the value e in the many- valued semantics  behaves in exactly the same way as not relating to any value does in the relational semantics.)

Of course, the conditions C1 and C2 will  now fail to be valid, since their validity depended essentially  on Exh.  If A relates to nothing, then where S is

any status predicate, S (A) may also relate to nothing—as, therefore, may any

truth  functional combination of such sentences.  We may restore their extended

versions by introducing the new predicate, E, and making the truth conditions of

Unlike the case of the relational semantics, these conditions force the semantics to be anti-monotonic, in that increasing the relations for atomic formulas may well require decreasing the relations of other formulas. For suppose that p relates to

nothing. Then E (A) ρt.  If we now add a relation for p, so that pρt, we cannot simply let E (A) ρf  or E (A) ρb as well; E (A) ρt has to be taken back.

Notwithstanding, the conditions now verify the extended catuskoti conditions, E1 and E2.  For E1, T (A) ∨ F (A) ∨ B (A) ∨ N (A) ∨ E (A). If ρ relates A to nothing, then E (A) relates to a designated value, and each other value relates

to something. Hence the disjunction relates to a designated value.  The other cases are similar. For E2, one can show that ¬(S1(A) ∧ S2(A)) is valid, where S1

and S2 are any distinct status predicates,  as in the many-valued  case. As in the many-valued  case, one can also show that ¬(T (A) ∨ F (A) ∨ B (A) ∨ N (A)) and T (A) ∧ F (A) ∧ B (A) ∧ N (A) may be designated.  (Let A relate to nothing, or