Glock asked his guests about grip-to-frame angle. He had nailed together two pieces of wood as a rough model. The experts experimented, pointing the model with their eyes open and closed. The consensus was that an ideal handgun should point “instinctively,” so that an injured user could fire even if he couldn’t see the gun’s sights. The experts settled on an angle of twenty-two degrees, which Glock later reduced slightly.

Colonel Dechant admonished Glock that his pistol should be able to withstand extended contact with snow, ice, and mud. It should fire ten thousand rounds with no more than one failure per thousand. The figure 40,000 was recorded that evening, referring to the goal that the ideal pistol should have a long service life, of forty thousand rounds.

There was much discussion about safety. The P-38 and most other pistols had external levers that when engaged prevented the weapon from firing. Some soldiers and police officers carried their pistols “cocked and locked,” meaning that the guns were ready to fire immediately upon disengagement of the safety. The problem with this common feature, Dechant said, was that an alarming number of soldiers and cops forgot whether their safeties were on or off. That led to confusion and accidental discharges.

“Those experts which I had consulted at the beginning of the development are people that had access to all the accident statistics, domestic and foreign statistics, which had examined how accidents happen and why they happen when a human being is in a stress situation and still able to operate or not operate a pistol,” Glock recalled years later. “The experts said every [safety] lever is a potential source of mishandling or misoperation during the use of the pistol.”

This counterintuitive insight—that safety devices can become hazards—rang true to Glock. He had carried the Walther P-38 in his pants pocket for two weeks. He discovered that he often couldn’t remember whether he had the safety engaged. “If this level of doubt existed, manual safeties were indeed a hindrance to the quick operation of a handgun,” the Glock company history noted.

At the evening’s end, Glock had his guests sign and date one of the sheets of paper that memorialized their thoughts. He treated the occasion as if it would be remembered by history. At the time, Glock did not pay his guests for their ideas. After he retired from the Army as a major general, Dechant went to work for Glock in a salaried position.

Armed with expert insights, Glock began work on a prototype. He hired experienced technicians who labored long hours with him to implement the Army’s demands. In the evenings, after dinner, he tested crude early versions in a basement firing range he built specially for this purpose. He shot alone, using only his left hand. If the gun blew up on him, he would still have his good right hand to do mechanical drawings.

“I learned to stay out of his way,” said Glock’s wife, Helga.

Some days, Glock attended police academy classes or took private shooting lessons. “My intention,” he recalled, “was to learn as much as possible about general use of the pistol, not only combat situations, but also for police use and military use and all the aspects of pistol use.”

Meanwhile, he and Helga continued running the secondhand metal press in the garage. They employed just a couple of laborers. Each morning, before he left for the radiator plant, Gaston set the controls of the ungainly Russian contraption: a coil of brass or steel fed into the stamping machine, depending on whether the Glocks were making door hinges or bayonets that day. When he came home for lunch, Gaston Glock would make any necessary adjustments. An employee loaded bins of product into a van, which Helga then drove to another shop for finishing. Mrs. Glock also had primary responsibility for raising their three children: Brigitte, a strong-willed firstborn; Gaston Jr., her introverted brother; and Robert, the doted-upon baby.

Some accounts claim that Glock developed his gun in just six months, or perhaps even three. Glock himself said the process lasted a year—still a startlingly short period of time for a novice firearm designer to produce a prototype. He filed for an Austrian patent on April 30, 1981. It was his seventeenth invention, so he called his gun the Glock 17. Coincidentally, his creation could store an impressive seventeen rounds in its magazine, with an eighteenth in the chamber, if the user so desired.

After another year of testing and improvement, Glock submitted four samples of the pistol to the Austrian Army on May 19, 1982. “I remember [the date], because I worked two years, day and night, to bring the sample to the Army on time,” he said more than a decade later.

Two overarching concepts would set the Glock 17 apart. First, it was to be made largely out of light, resilient, injection-molded plastic, and second, it was designed without a preexisting factory.

By the 1980s, industrial plastic, often called polymer, was remarkably strong and resistant to corrosion, a major problem with traditional steel guns. Glock had begun learning about the material when he bought an injection-molding machine to make handles and sheaths for the military knives he produced in his garage. He had the wisdom and good luck to hire former employees of a bankrupt camera manufacturer who brought advanced injection-molding and plastic-design skills. One of these men, Reinhold Hirschheiter, continued for decades as Glock’s right-hand man for production.

By fashioning the frame of his pistol from polymer, Glock foresaw savings on raw material and labor, as well as a weapon that had distinct ergonomic advantages over one cobbled together from blued steel and walnut. Earlier guns made from polymer frames—the American Remington Nylon 66 rifle and the German Heckler & Koch VP70 pistol—had engineering or design shortcomings; they never caught on widely. Steyr produced a successful plastic-stock rifle for soldiers and police, the AUG. But in the late 1970s and early 1980s, the Austrian manufacturer was struggling to figure out how to apply the technology to pistols, opening the door for Gaston Glock.

Glock imagined a thoroughly modern pistol factory, dominated by computerized workstations, and he conceived his gun to be made in this as yet nonexistent plant. “The important thing that gave him the big price advantage was he designed the pistol for complete production on CNC [computer-controlled] tools,” said Wolfgang Riedl, a former Steyr executive who later joined the Glock team as marketing director.

The task fell to Lieutenant Ingo Wieser, an aide to Colonel Dechant, to compare Glock’s submission to that of five other manufacturers. Wieser, a twenty-five-year-old career soldier, had an unusually intimate view of the birthing of the Glock. Without contradicting any of the central elements of the story as told by Gaston Glock, and repeated over the years by his admirers, Wieser adds useful political context and a dose of skepticism to the heroic portrait of Glock.

Today, Wieser operates a security-consulting firm in Vienna and serves as a leading forensic adviser to the country’s court system. He has an encyclopedic knowledge of modern pistol technology. In 1979, before Gaston Glock’s opportunistic eavesdropping in the halls of the Defense Ministry, Wieser had supervised tests on potential replacement pistols. These trials found that Beretta offered the most effective model. But Steyr, the long-established Austrian arms maker, which was controlled by the Socialist-dominated government, objected fiercely that a foreign manufacturer should not receive the contract. In response, the defense minister told the Army that if Steyr did not win the competition, then another Austrian company had to be found. Otherwise, the military could end up accused of insufficient patriotism in its procurement. But there wasn’t a suitable alternative company in Austria that already knew how to make handguns. “Mr. Glock was at the right place at the right time,” Wieser told me.