Tuesday, April 2, 2013

meta-Tao clonons

The next metapattern discussed by Tyler Volk and Jeff Bloom are clonons, physical or mental components intrinsic in a holarchy. The main characteristic is their sameness, due to the replication-cloning process. The typical example are cells which, replicating, may form supra-systems with holarchies such tissues and organs. The analogy is that of bricks used as elements to build walls and structures increasingly complex, but always formed by the same identical elements.
Detail of decoration on the Taj Mahal, Agra, India (Photo: David Castor)

Background

The notion of clonons falls within the scope of holarchies, in that specific objects or ideas are repeated to create layers of embeddedness. As with the process of cloning, a specific object can be replicated. Clonons can build wholes and each whole can be a clonon of larger set.

Examples

  • In science: identical cells in different layers of tissue, protons, neutrons, electrons, worker ants, each fish in a school, identical atoms in a molecule (e.g., two clonons of hydrogen joining a holon of oxygen to form a holon of a water molecule, which in turn become a clonon of water molecules in a cup of water), etc
  • In architecture and design: bricks in a wall, tiles on a floor or ceiling, each light fixture in ceiling, each office or room on a floor, each floor in a building, windows in skyscraper, each house in a subdivision, etc.
  • In art: each brush stroke in a painting, each decorative design unit in a pottery bowl, each point in a pointillism painting, etc.
  • In social sciences: each individual in a community or society, each client in a business, each factory worker at a specific point in an assembly line, etc.
  • In other senses: each tomato on a tomato plant, each tomato plant in a tomato garden, etc.
Corporate colones; Dale O'Dell

Metapatterns

The Pattern Underground

Friday, March 29, 2013

the Places of Tao: Concordia Circle

Concordia Circle (about 4800 m.) is the area of the confluence of the Baltoro and Godwin-Austen glaciers, in the heart of Karakoram range, Pakistan, and the obligatory point of passage for expeditions in the area for over a century. Around there's an impressive number of peaks among the most beautiful and relevant of the world, including four eight-thousanders and a large number of 7000s and 6000s.
Panoramic view from Concordia.
K2 south face view from Concordia.
K2 and Broad Peak view from Concordia.
MuztaghTower view from Concordia.
Concordia view toward the Gasherbrum group.

Thursday, March 28, 2013

Tao subsystems - II


After discussing exteroception and interoception Tart continues on the description of the subsystems which form consciousness, going on with the processing of the input produced via the external world (exteroception) and via the body (interoception):

Subsystems

Input Processing

Before reaching awareness, all input data, whether interoceptive or exteroceptive, normally goes through various degrees of processing. The Input-Processing subsystem consists of a complex, interlocking series of totally automatic processes that compares incoming data against previously learned material stored in memory, rejects much of the data as irrelevant, selects some of them as important enough to deserve further processing, transforms and abstracts these important data, and passes this abstraction along to awareness. Thus, a major function of Input-Processing is rejection. At any given instant, you are generally bombarded by an enormous quantity of sensory data of all sorts. Most of the data is not important in terms of defined needs, such as your biological survival. Since your ability to handle information and awareness is limited, you would be overwhelmed if all this mass of incoming data came through. Instead, you receive a small abstraction of incoming information that is important by personal and consensus reality standards.
Input-Processing is totally automatic. Look at this thing that is in your hands with the question, "What is it?" in your mind. Immediately you see a book. You did not have the experience of seeing a whitish rectangular object with dark spots on it. You did not further experience these spots as being arranged in lines, and the individual spots as having distinctive characteristics, which you then, by painstaking examination, arranged into words and sentences, and so concluded that this was a book in your hands. No, the recognition of this thing as a book was instantaneous and automatic. To demonstrate how automatic the processing is, look at the book again and try to see it as simply a collection of incoming, assorted stimuli instead of as a book.
Unless you have some unusual abilities, you find it very difficult to see this object as anything but a book.
Numerous psychological studies have focused on the way perception is automated. Many of these studies have mistakenly assumed they were studying the "accuracy" of perception. What they were usually studying was the agreement with consensus reality standards for perceiving things. An immediate, automatic perception of socially defined reality is taken as being "realistic" and as a sign of a "good-observer."
Thus, Input-Processing is a learned behavior, probably the most complex a human being has to acquire. Think of the number of connections among stimuli and the number of responses associated with the various stimuli that an infant must learn before he can be said to "think." the task is staggering. The infant must learn to perceive instantly and automatically all major features of consensus reality as his parents, peers, and teachers do. This means that an immense amount of information must be stored in memory (it does not matter whether it is stored in the Memory subsystem or in a special Input-Processing memory) and be almost instantly available to Input-Processing. Total automation of the process is equated with efficiency: if I have to struggle to identify an object, I feel stupid; but if I recognize it right away, I feel competent and smart.
In relation to enculturation process, we discussed the fact that a child has more options for his consciousness than a teenager or an adult. This is another way of saying that the automatization of Input-Processing and its efficiency become comprehensive with increasing age, until by the time we are adults almost everything in our world is instantly recognized and dealt with "appropriately." An adult sees things almost exclusively in a culturally approved way and makes culturally approved responses. Rigidity increases with age: that is what Timothy Leary meant when he said, "Don't trust anyone over thirty." The statement is overgeneralized, but it does contain an important psychological truth: older people are liable to be less able to see things differently from the way they have always been accustomed to seeing them.
Numerous psychological studies show variation in Input-Processing that are related to differences within consensus reality. An early study of perception, for example, showed that poor children tend to perceive coins as physically larger than rich children do. People with strong religious values tend to pick up words and other stimuli relating to religion more readily than they do those relating to economics, and vice versa. People with neuroses or psychoses tend to be especially sensitive to certain stimuli that trigger their neurotic structures and to distort perception in ways that fit these neurotic structures. Projective tests, in which the subject is shown a relatively ambiguous stimulus like an ink blot and asked to describe what he sees, are a way of investigating the underlying structures of Input-Processing. If he repeatedly sees a murdered baby in several different blots, we might begin to wonder about the way he has dealt with aggression in his life or about his feelings toward his parents.
In terms of the basic concepts of attention/awareness, psychological energy, and structure, Input-Processing represents a large number of structures, each specialized in responding to certain kinds of stimulus patterns. It has a certain amount of psychological energy always available, so that this active set of structures almost always stands between you and your sense. Input-Processing is automatized in the sense that the structures always draw energy of some sort when activated and process information in a relatively fixed way before passing this information on to awareness.
The ubiquity of Input-Processing is a main reason I have elsewhere distinguished consciousness from awareness. Some kind of "pure" awareness may be a basic from which we start, but ordinarily we experience consciousness, awareness as it is vastly modified by the machinery of the mind. Here Input-Processing in effects places a number of structures between us and our sensory input, and even our sensory input comes through the Exteroception and Interoception subsystems, which are themselves structures with characteristics of their own. Other subsystems are also structures that modify or pattern basic awareness into consciousness. The systems diagram presented as Figure 8-1 shows awareness in a distinct place, but it really spreads through the various subsystems and so becomes consciousness.
The main function of Input-Processing, then, is abstraction. This subsystem is rather like a vast organization that keeps track of an industry's progress and problems and, through hierarchical chains, passes on only the most abstracted reports to the president of the company.
Input-Processing also generalizes, gives a familiar abstracted output to unfamiliar situations that are reasonably close to particular perceptions that have been learned. Thus you recognize this object as a book even though you have never seen this particular book before: it is similar enough to other books to have label automatically applied to it. This kind of generalization may be greatly affected by dominated needs and emotions: all apples look alike to a hungry man.
Various aspects of Input-Processing can show extremely large changes in various d-ASCs. There are large quantitative changes, that is, the range of continuous changes in various aspects of Input-Processing may be greater or less than in your ordinary d-SoC. Your ability to focus attention on particular percepts, for example, may be quantitatively greater or quantitatively less in various d-ASCs.
There are also many important qualitative changes that may be experienced as entirely new modes of perception. Some of these may be the activation of latent human potentials. Patterns may be seen in ordinarily ambiguous data, making it obviously meaningful. An important effect of marijuana intoxication, for example, is the ability to look at normally ambiguous material, such as the grain pattern in a sheet of wood, and see it as an actual picture. New shades of color are reported in various d-ASCs, new qualities to sound. We shall reserve judgment for the moment on whether these are veridical with respect to the actual stimulating objects.
Apparently fixed properties of perceptual organization may change in various d-ASCs as Input-Processing changes. Carlos Castaneda for example, describes how Don Juan taught him how to turn into a crow while he was intoxicated with a hallucinogenic plant: an outstanding aspect of this experience was that his visual field from each eye became split, so that he had two quite different fields, just as if his eyes were on separate sides of his head, instead of the usual overlapping, integrated field.
Illusions and hallucinations, frequently reported in d-ASCs, represent important changes in Input-Processing. The conventional definition of illusion is a misinterpretation of a stimulus that is actually there, as, for example, when on entering a dimly lit room you mistake a coat hanging on a rack for a person. Hallucination is conventionally defined as a vision of something that is not there at all, as, for example, when on entering the same dimly lit room you see a person, even though the room is empty. While it is easy to distinguish these two extremes, there is obviously a continuum between them: there is always a certain amount of random neural firing in your retina, a "something" there.
In a more general sense, we must realize that "misperception" and "what is and is not there" are usually defined in terms of consensus reality. We may hope that our consensus reality has a high degree of accuracy with respect to physical reality, but to assume automatically that it does is to be very parochial. If one person hears a given piece of music as exceptionally beautiful in its melody, and another hears it as quite common, was the first person suffering an illusion, or was he really more perceptive? We must be particularly careful in dealing with phenomena from d-ASCs that our consensus reality automatically defines as hallucinatory. Should we have so much faith in the conceptual schemes evolved in our ordinary d-SoC that we automatically dismiss anything that does not fit with them? It is bad science to continue to do so.
An illusion, then, is Input-Processing's interpretation of a stimulus in a way that does not match consensus reality standards. Whether the interpretation added by the illusion is a richer and more accurate perception of a stimulus pattern, or a more distorted and less accurate one, varies with individual cases. In terms of d-ASCs we know about, my general impression is that they possess the property of making our perception more accurate in some ways and less accurate in others. A hallucination is a functioning of Input-Processing whereby stored information is drawn from Memory, worked over by Input-Processing, and passed along to awareness as if it were sensory data. The special label or quality that identifies the source of this vivid image as memory is missing; the quality that identifies it as a sensory stimulus is present. Depending on the type of d-ASC, a hallucination may completely dominate perception, totally wiping out all sensory input coming through Input-Processing, or may be mixed with processed sensory data. The intensity of the hallucination may be as great as that of ordinary sensory information, even greater, or less.
An interesting dimension of variability of Input-Processing in d-ASCs is the degree to which it can be voluntarily altered. The degree of control may be high or low. I recall participating in some experiments on the effect of psilocybin, a psychedelic like LSD, when I was a graduate student. While intoxicated by the drug, I had to sort through a batch of file cards, each of which contained a statement of various possible symptoms. If I was experiencing the symptom, I was to put the card in the "true" pile, if I was not, in the "false" pile. I quickly found that I could make almost every statement true if I so desired, simply by reading it several times. I would pick up a statement like "My palms are sweating green sweat," think that would be an interesting experience, reread the statement several times, and then look at my hands and see that, sure enough, they were sweating green sweat! I could read a statement like "The top of my head is soft" several times and feel the top of my head become soft! Thus, while intoxicated with psilocybin my degree of voluntary control over Input-Processing became very large, sufficiently to create both illusions and hallucinations by merely focusing attention/awareness energy on the desired outcome.
Another type of variation that can occur in Input-Processing in d-ASCs is the partial or total blocking of input from exterocepters or interoceptors. The d-ASC of deep hypnosis is an example. One can suggest to a talented, deeply hypnotized subject that he is blind, that he cannot feel pain, that he cannot hear, and experientially this will be so. The subject will not respond to a light or to objects shown him, and both during the d-ASC and afterward in his ordinary d-SoC, will swear that he perceived nothing. His eyes are still obviously functioning, and evoked brain responses recorded from the scalp show that input is traveling over the sensory nerves from his eye to his brain, but at the stage of Input-Processing the input is cut off so it does not reach awareness. Similarly, analgesia to pain may be induced in hypnosis and other d-ASCs.
When input is completely blocked in Input-Processing there may or may not be a substitution of other input. Thus information may be drawn from memory to substitute a hallucination for the actual blocked information. If, for example, a deeply hypnotized subject is told that he cannot see a particular person who is in the room, he may not simply experience a blank when looking at that person (which sometimes happens), he may actually hallucinate that details of the room behind the person and thus see no anomalous area in his visual field at all.
Another important change in d-ASCs is that, experientially, there may seem to be less Input-Processing, less abstracting, so a person feels more in touch with the raw, unprocessed input from his environment. This is especially striking with the psychedelics and is also reported as an aftereffect of concentrative meditation and as a direct effect of opening-up meditation. I know of no experimental studies that have thoroughly investigated whether one can actually be more aware of raw sensory data, but this is certainly a strong experiential feeling. It is not necessarily true, however. Vivid illusions can be mistaken for raw sensory data or (probably what happens) there can be a mixture of greater perception of raw data and more illusion substituted. Whether there is any particular d-ASC in which the balance is generally toward better perception through less abstracting is unknown at present.
Psychedelic-drug-induced conditions are particularly noteworthy for the experience of feeling in contact with the raw data of perception, and this makes perceptions exceptionally beautiful, vibrant, and alive. By contrast, usual perception in the ordinary d-SoC, seems lifeless, abstract, with all the beauty of reality removed to satisfy various needs and blend in with consensus reality.
Also reported in d-ASCs is an experience of feeling more in touch with the actual machinery of Input-Processing, gaining some insight or direct experience of how the abstracting processes work. For example, I was once watching a snowfall through a window at night, with a brilliant white spotlight on the roof illuminating the falling snow. I was in an unusually quiet state of mind (it was too brief for me to decide whether it was a d-ASC), and suddenly I noticed that instead of simply watching white snow fall (my usual experience), I was seeing each snowflake glinting and changing with all colors of the spectrum. I felt strongly that an automated Input-Processing activity that makes snow white had temporarily broken down. Afterward, it struck me that this was likely, for white is actually all the colors of the spectrum combined by Exteroception (eyes) and Input-Processing to the sensation of white. Thus a snowflake actually reflects all the colors of the spectrum, and active "doing" (to use Don Juan's term) on the viewer's part is required to turn it into white. There is no light energy of "white" in the physicist's world. Similarly, persons have reported gaining insights into how various automatic processes organize their perception by being able to see the lack of organization of it or by seeing the alternative organizations that occur.
Synesthesia is another radical change in Input-Processing that sometimes takes place in some d-ASCs. Stimulation of one sense is perceived in awareness as though a different sense had been stimulated at the same time. For example, hearing music is accompanied by seeing colored forms. This is the most common and perhaps the most beautiful form of synesthesia, and is sometimes reported with marijuana intoxication.

All techniques for inducing d-ASCs, except drug or physiological effects that act directly on various bodily functions, must work through Input-Processing. That subsystem mediates all communication. Yet it is useful to distinguish between induction techniques that are primarily designed to disrupt stabilization of the b-SoC in some other subsystem without significantly affecting Input-Processing per se, and those that are designed to disrupt Input-processing directly as a way of destabilizing the b-SoC.
In this latter class is a wide variety of techniques designed to give a person input that is uncanny in terms of the familiar ways of processing input in the b-SoC. The input is uncanny, anomalous in a sense of seeming familiar yet being dissimilar enough in various way to engender a pronounced feeling of nonfitting. Often the events are associated with an emotional charge or a feeling of significance that makes that fact that they do not fit even more important. Don Juan, for example, in training Carlos Castaneda to attain various d-ASCs would often frighten Castaneda or destabilize his ordinary state to an extraordinary degree by doing something that seemed almost, but not quite, familiar, such as simply acting normally but with subtle differences at various points.
The use of uncanny stimuli is not limited to inducing a d-ASC from an ordinary d-SoC.; it can work in reverse. When a person talks about "being brought down" from a valued d-ASC, he means he is presented with stimulation patterns that Input-Processing cannot handle in that d-ASC, so the d-ASC is destabilized, and he returns to his ordinary d-SoC.

Tao subsystems - I

Monday, March 25, 2013

almost perfect universal Tao

Cosmic microwave background seen by Planck
21 March 2013 Acquired by ESA’s Planck space telescope, the most detailed map ever created of the cosmic microwave background – the relic radiation from the Big Bang – was released today revealing the existence of features that challenge the foundations of our current understanding of the Universe.
The image is based on the initial 15.5 months of data from Planck and is the mission’s first all-sky picture of the oldest light in our Universe, imprinted on the sky when it was just 380 000 years old.
At that time, the young Universe was filled with a hot dense soup of interacting protons, electrons and photons at about 2700ºC. When the protons and electrons joined to form hydrogen atoms, the light was set free. As the Universe has expanded, this light today has been stretched out to microwave wavelengths, equivalent to a temperature of just 2.7 degrees above absolute zero.
This ‘cosmic microwave background’ – CMB – shows tiny temperature fluctuations that correspond to regions of slightly different densities at very early times, representing the seeds of all future structure: the stars and galaxies of today.
According to the standard model of cosmology, the fluctuations arose immediately after the Big Bang and were stretched to cosmologically large scales during a brief period of accelerated expansion known as inflation.
Planck was designed to map these fluctuations across the whole sky with greater resolution and sensitivity than ever before. By analysing the nature and distribution of the seeds in Planck’s CMB image, we can determine the composition and evolution of the Universe from its birth to the present day.
Overall, the information extracted from Planck’s new map provides an excellent confirmation of the standard model of cosmology at an unprecedented accuracy, setting a new benchmark in our manifest of the contents of the Universe. 
But because precision of Planck’s map is so high, it also made it possible to reveal some peculiar unexplained features that may well require new physics to be understood.
“The extraordinary quality of Planck’s portrait of the infant Universe allows us to peel back its layers to the very foundations, revealing that our blueprint of the cosmos is far from complete. Such discoveries were made possible by the unique technologies developed for that purpose by European industry,” says Jean-Jacques Dordain, ESA’s Director General.
“Since the release of Planck’s first all-sky image in 2010, we have been carefully extracting and analysing all of the foreground emissions that lie between us and the Universe’s first light, revealing the cosmic microwave background in the greatest detail yet,” adds George Efstathiou of the University of Cambridge, UK.
One of the most surprising findings is that the fluctuations in the CMB temperatures at large angular scales do not match those predicted by the standard model – their signals are not as strong as expected from the smaller scale structure revealed by Planck.

Thursday, March 21, 2013

Gross National Tao


Since 2009, on the initiative of the King of Bhutan in the 70s, it has been introduced and studied the concept of Gross National Happiness (GNH) index, based on nine  socio-cultural/environmental domains and a series of 33 indicators  mapped over 124 variables, and applied to Bhutan population.
Nine domains and 33 indicators of GNH index.
While there is no single official definition of GNH, the following description is widely used:
Gross National Happiness (GNH) measures the quality of a country in more holistic way (than GNP) and believes that the beneficial development of human society takes place when material and spiritual development occurs side by side to complement and reinforce each other.
The 2012 published result for Bhutan is a GNH value of 0,743, that means that 40,8% of the population reached happiness.
Slogan on a wall in Thimphu's School of Traditional Arts.
Source: Personal archive of Italian writer Mario Biondi.

GNH INDEX

Bhutan GNH Index

GNH: Concept
Gross National Happiness is a term coined by His Majesty the Fourth King of Bhutan, Jigme Singye Wangchuck in the 1970s. The concept implies that sustainable development should take a holistic approach towards notions of progress and give equal importance to non-economic aspects of wellbeing. The concept of GNH has often been explained by its four pillars: good governance, sustainable socio-economic development, cultural preservation, and environmental conservation. Lately the four pillars have been further classified into nine domains in order to create widespread understanding of GNH and to reflect the holistic range of GNH values. The nine domains are: psychological wellbeing, health, education, time use, cultural diversity and resilience, good governance, community vitality, ecological diversity and resilience, and living standards. The domains represents each of the components of wellbeing of the Bhutanese people, and the term ‘wellbeing’ here refers to fulfilling conditions of a ‘good life’ as per the values and principles laid down by the concept of Gross National Happiness.

The GNH Index: What is it?
The Gross National Happiness Index is a single number index developed from 33 indicators categorized under nine domains. The GNH Index is constructed based upon a robust multidimensional methodology known as the Alkire-Foster method.
The GNH Index is decomposable by any demographic characteristic and so is designed to create policy incentives for the government, NGOs and businesses of Bhutan to increase GNH. The 33 indicators under the nine domains aim to emphasize different aspects of wellbeing and different ways of meeting these underlying human needs. The 33 indicators are statistically reliable, normatively important, and easily understood by large audiences. The domains are equally weighted.  Within each domain, the objective indicators are given higher weights while the subjective and self-reported indicators are assigned lower weights.

The 2010 GNH Survey:
The Gross National Happiness survey was carried out in 2010 with representative samples taken at district and regional levels. The survey was administered using the GNH questionnaire which gathered data on a comprehensive picture of the wellbeing of Bhutanese. The survey gathered data from 7142 respondents; 6476 or 90.7% of the respondents had sufficient data to be included in the GNH Index.

The 2010 GNH Index: Highlights
The methodology basically provides three types of results: headcount, intensity and the overall GNH index. Headcount refers to the percentage of Bhutanese who are considered happy, and intensity is the average sufficiency enjoyed by the Bhutanese.
  • Headcount = 40.9% – This means that 41% of Bhutanese have sufficiency in six or more of the nine domains and are considered ‘happy’.
  • Intensity = 43.4% -The 59% of Bhutanese who are not considered ‘happy’ lack sufficiency in 43% of the domains. Thus unhappy Bhutanese on average lack sufficiency in just under four domains and enjoy sufficiency in just over five domains.
  • GNH Index = 0.743 – the GNH Index ranges from 0 to 1. A higher number is better. It reflects the percentage of Bhutanese who are happy and the percentage of domains in which not-yet-happy people have achieved sufficiency (headcount and intensity).
What else did the GNH Index reveal about happy people?  Here are some highlights:
  • Men are happier than women on average.
  • Of the nine domains, Bhutanese have the most sufficiency in health, then ecology, psychological wellbeing, and community vitality.
  • In urban areas, 50% of people are happy; in rural areas it is 37%.
  • Urban areas do better in health, living standards and education. Rural areas do better in community vitality, cultural resilience, and good governance.
  • Happiness is higher among people with a primary education or above than among those with no formal education, but higher education does not affect GNH very much.
  • The happiest people by occupation include civil servants and monks/anim. Interestingly, the unemployed are happier than corporate employees, housewives, farmers or the national work force.
  • Unmarried people and young people are among the happiest.






Wednesday, March 20, 2013

a legacy for Tao - III


Angels Fear Revisited:
Gregory Bateson’s Cybernetic Theory of Mind
Applied to Religion-Science Debates

Mary Catherine Bateson

Kinds of Messages
I am going to start with a story that deals with the relationship between scientific and other kinds of discourse. As Gregory asserted, “… thinking in terms of stories must be shared by all mind or minds, whether ours or those of redwood forests and sea anemones”. In the early 80s, I was teaching a course in the anthropology department of an elite American college, Amherst College, with the title “Peoples and Cultures of the Middle East,” and I showed a documentary film of the annual Muslim pilgrimage to Mecca.
(Parenthetically, many readers will remember Gregory’s story about Sol Tax and the question of whether it was appropriate to film a ceremony of the Native American Church in order to defend the sacramental use of peyote, so it is important to note here that although it is forbidden for any non-Muslim to make the Meccan pilgrimage or to enter the Holy Cities, there are a number of documentary films made by Muslim film makers. I don’t believe that the issue in the Sol Tax story is the use of technology. I think the issue is the conscious use by believers of words and actions ostensibly directed toward spiritual beings to direct an argument toward political authorities, a behavior which is fairly routine in American politics. Many ethnographers have filmed rituals, including Gregory, who is still regarded as a pioneer of visual anthropology and of the use of film to record and analyze patterns of behavior. It is an oversimplification to focus on the technology per se as a desecration. The question is what is said and enacted, to whom, and in what context.)
In any case, I showed in my classroom a film of the Meccan pilgrimage, and after the class a young woman from an evangelical Christian background came up to me, with tears running down her face, and said to me, “It never occurred to me that they believed their religion.” This was, to me, a very shocking thing to hear, so I want you to pause and be shocked for a moment, before I try to unpack her statement. In fact, I think she misstated her reaction – but at the same time, she revealed a fundamental misconception in all the Abrahamic religions – Christianity, Judaism and Islam – which continues to give us trouble to this day and has indeed become more severe. What she intended to say was not that she had thought Muslims were lying when they affirmed their religion. I think that what she meant was, “It never occurred to me that their experience of their religion was comparable to my experience of mine.” The medium of film had allowed her to empathize with an experience and recognize it in an unfamiliar and exotic context.
Gregory would have pointed out that we are mammals and that we respond in terms of relationships. But of course, this young woman had been brought up with the idea that religion is about beliefs that are either true or untrue, not about experience or about relationship. Christianity and Islam have both, at different times in their history, been preoccupied with accuracy of interpretation, avoidance of heresy, and the insistence that believers should concur on specific beliefs. They have asserted that the “truths” of different religions are mutually exclusive and in competition, what I sometimes call zero sum truth. My student erred in her understanding of the kind of message communicated in religious discourse. The classification of kinds of messages occurs at a different logical level from the message itself, and often contextually. Thus, for those familiar with theater, words spoken in the context of a theatrical performance are responded to differently from the same words spoken elsewhere.
We are constantly dealing with communication at multiple levels, where some kind of metamessage classifies a particular communication as report or speculation, humor or poetry, or, in the case of Gregory’s film about river otters, combat or play. Without this level of understanding, interpretation is impossible. Gregory’s interest in the ways in which messages are modified by context and by other messages, which was elaborated in the application of the Russellian theory of logical types to schizophrenia, became fundamental to his thinking about all biological communication including that involved in epigenesis. But back to Abraham, who must have been a fairly literal-minded chap – a bit like the schizophrenic Gregory spoke about, who eats the menu card instead of the dinner. At some level – assuming that any of this happened, of course – Abraham took the admonition: “You must be willing to give all that is most precious to you to god” literally. And off he went with a sharp knife to sacrifice his son.


the Tao of Programming: Book 5 - Maintenance

Geoffrey James, 1987
Book 5 - Maintenance

Thus spake the master programmer:
"Though a program be but three lines long, someday it will have to be maintained."

5.1

A well-used door needs no oil on its hinges.
A swift-flowing stream does not grow stagnant.
Neither sound nor thoughts can travel through a vacuum.
Software rots if not used.


These are great mysteries.

5.2

A manager asked a programmer how long it would take him to finish the program on which he was working. "It will be finished tomorrow", the programmer promptly replied.

"I think you are being unrealistic", said the manager, "Truthfully, how long will it take?"

The programmer thought for a moment. "I have some features that I wish to add. This will take at least two weeks", he finally said.

"Even that is too much to expect", insisted the manager, "I will be satisfied if you simply tell me when the program is complete."
The programmer agreed to this.

Several years later, the manager retired. On the way to his retirement luncheon, he discovered the programmer asleep at his terminal. He had been programming all night.

5.3

A novice programmer was once assigned to code a simple financial package.

The novice worked furiously for many days, but when his master reviewed his program, he discovered that it contained a screen editor, a set of generalized graphics routines, an artificial intelligence interface, but not the slightest mention of anything financial.

When the master asked about this, the novice became indignant. "Don't be so impatient", he said, "I'll put in the financial stuff eventually."

5.4

Does a good farmer neglect a crop he has planted?
Does a good teacher overlook even the most humble student?
Does a good father allow a single child to starve?
Does a good programmer refuse to maintain his code?