Dialogical logic


Dialogical logic is a pragmatic approach to the semantics of logic developed in the 1950s by Paul Lorenzen and Kuno Lorenz. It models logical reasoning as a dialogue game between two participants—a "Proponent" who asserts and defends a thesis and an "Opponent" who challenges it—using concepts from game theory such as "winning a play" and "winning strategy." In this framework, a formula is considered logically valid if the Proponent has a winning strategy for its defense against all possible challenges.
Though dialogical logic was among the first approaches to logical semantics using game-theoretical concepts, it should be distinguished from broader concept of game semantics. While both share game-theoretical foundations, they differ in philosophical background and technical development. Dialogical logic emphasizes the normative practice of reasoning and argumentation, drawing inspiration from constructivist philosophy, whereas other game-semantic approaches like Jaakko Hintikka's game-theoretical semantics have different theoretical motivations and formal implementations.
Originally focused on providing alternative semantics for classical logic and intuitionistic logic, dialogical logic has evolved into a general framework for studying meaning, knowledge, and inference in interactive contexts. Recent developments include the study of cooperative dialogues beyond strictly adversarial games, and dialogues deploying a fully interpreted language, extending its applications to philosophy of language, epistemology, and argumentation theory.

Origins and further developments

The philosopher and mathematician Paul Lorenzen was the first to introduce a semantics of games for logic in the late 1950s. Lorenzen called this semantics 'dialogische Logik', or dialogic logic. Later, it was developed extensively by his pupil Kuno Lorenz. Jaakko Hintikka developed a little later to Lorenzen a model-theoretical approach known as GTS.
Since then, a significant number of different game semantics have been studied in logic. Since 1993, and his collaborators have developed dialogical logic within a general framework aimed at the study of the logical and philosophical issues related to logical pluralism. More precisely, by 1995 a kind of revival of dialogical logic was generated that opened new and unexpected possibilities for logical and philosophical research. The philosophical development of dialogical logic continued especially in the fields of argumentation theory, legal reasoning, computer science, applied linguistics, and artificial intelligence.
The new results in dialogical logic began on one side, with the works of Jean-Yves Girard in linear logic and interaction; on the other, with the study of the interface of logic, mathematical game theory and argumentation, argumentation frameworks and defeasible reasoning, by researchers such as Samson Abramsky, Johan van Benthem, Andreas Blass, Nicolas Clerbout, Frans H. van Eemeren, Mathieu Fontaine, Dov Gabbay, Rob Grootendorst, Giorgi Japaridze, Laurent Keiff, Erik Krabbe, Alain Leconte, Rodrigo Lopez-Orellana, Sébasten Magnier, Mathieu Marion, Zoe McConaughey, Henry Prakken, Juan Redmond, Helge Rückert, Gabriel Sandu, Giovanni Sartor, Douglas N. Walton, and John Woods among others, who have contributed to place dialogical interaction and games at the center of a new perspective of logic, where logic is defined as an instrument of dynamic inference.
Five research programs address the interface of meaning, knowledge, and logic in the context of dialogues, games, or more generally interaction:
  1. The constructivist approach of Paul Lorenzen and Kuno Lorenz, who sought to overcome the limitations of operative logic by providing dialogical foundations to it. The method of semantic tableaux for classical and intuitionistic logic as introduced by Evert W. Beth could thus be identified as a method for the notation of winning strategies of particular dialogue games. This, as mentioned above has been extended by Shahid Rahman and collaborators to a general framework for the study of classical and non-classical logics. Rahman and his team of Lille, in order to develop dialogues with content, enriched the dialogical framework with fully interpreted languages.
  2. The game-theoretical approach of Jaakko Hintikka, called GTS. This approach shares the game-theoretical tenets of dialogical logic for logical constants; but turns to standard model theory when the analysis process reaches the level of elementary statements. At this level standard truth-functional formal semantics comes into play. Whereas in the formal plays of dialogical logic P will loose both plays on an elementary proposition, namely the play where the thesis states this proposition and the play where he states its negation; in GTS one of both will be won by the defender. A subsequent development was launched by Johan van Benthem in his book Logic in Games, which combines the game-theoretical approaches with epistemic logic.
  3. The argumentation theory approach of Else M. Barth and Erik Krabbe, who sought to link dialogical logic with the informal logic or critical reasoning originated by the seminal work of Chaïm Perelman, Stephen Toulmin, Arne Næss and Charles Leonard Hamblin and developed further by Ralph Johnson, Douglas N. Walton, John Woods and associates. Further developments include the argumentation framework of P.D. Dung and others, the defeasible reasoning approach of Henry Prakken and Giovanni Sartor, and pragma-dialectics by Frans H. van Eemeren and Rob Grootendorst.
  4. The ludics approach, initiated by Jean-Yves Girard, which provides an overall theory of proof-theoretical meaning based on interactive computation.
  5. The alternative perspective on proof theory and meaning theory, advocating that Wittgenstein's "meaning as use" paradigm as understood in the context of proof theory, where the so-called reduction rules should be seen as appropriate to formalise the explanation of the consequences one can draw from a proposition, thus showing the function/purpose/usefulness of its main connective in the calculus of language.
According to the dialogical perspective, knowledge, meaning, and truth are conceived as a result of social interaction, where normativity is not understood as a type of pragmatic operator acting on a propositional nucleus destined to express knowledge and meaning, but on the contrary: the type of normativity that emerges from the social interaction associated with knowledge and meaning is constitutive of these notions. In other words, according to the conception of the dialogical framework, the intertwining of the right to ask for reasons, on the one hand, and the obligation to give them, on the other, provides the roots of knowledge, meaning and truth.

Local and global meaning

As hinted by its name, this framework studies dialogues, but it also takes the form of dialogues. In a dialogue, two parties argue on a thesis and follow certain fixed rules in their argument. The player who states the thesis is the Proponent, called P, and his rival, the player who challenges the thesis, is the Opponent, called O. In challenging the Proponent's thesis, the Opponent is requiring of the Proponent that he defends his statement.
The interaction between the two players P and O is spelled out by challenges and defences, implementing Robert Brandom's take on meaning as a game of giving and asking for reasons. Actions in a dialogue are called moves; they are often understood as speech-acts involving declarative utterances and interrogative utterances. The rules for dialogues thus never deal with expressions isolated from the act of uttering them.
The rules in the dialogical framework are divided into two kinds of rules: particle rules and structural rules. Whereas the first determine local meaning, the second determine global meaning.
Local meaning explains the meaning of an expression, independently of the rules setting the development of a dialogue. Global meaning sets the meaning of an expression in the context of some specific form of developing a dialogue.
More precisely:
  • Particle rules, or rules for logical constants, determine the legal moves in a play and regulate interaction by establishing the relevant moves constituting challenges: moves that are an appropriate attack to a previous move and thus require that the challenged player play the appropriate defence to the attack. If the challenged player defends his statement, he has answered the challenge.
  • Structural rules on the other hand determine the general course of a dialogue game, such as how a game is initiated, how to play it, how it ends, and so on. The point of these rules is not so much to spell out the meaning of the logical constants by specifying how to act in an appropriate way ; it is rather to specify according to what structure interactions will take place. It is one thing to determine the meaning of the logical constants as a set of appropriate challenges and defences, it is another to define whose turn it is to play and when a player is allowed to play a move.
In the most basic case, the particle rules set the local meaning of the logical constants of first-order classical and intuitionistic logic. More precisely the local meaning is set by the following distribution of choices:
  • If the defender X states "A and B", the challenger Y has the right to choose between asking the defender to state A or to state B.
  • If the defender X states "A or B", the challenger Y has the right to ask him to choose between stating A or stating B.
  • If the defender X states that "if A then B", the challenger Y has the right to ask for B by conceding herself A.
  • If the defender X states "no-A", then the challenger Y has the right to state A.
  • If the defender X states for "all the x's it is the case that A", the challenger Y has the right to choose a singular term t and ask the defender to substitute this term for the free variables in A.
  • If the defender X states "there is at least one x, for which it is the case that A", the challenger Y has the right to ask him to choose a singular term and substitute this term for the free variables in A.
The next section furnishes a brief overview of the rules for intuitionist logic and classical logic. For a complete formal formulation see,,.