Guy Lewis Steele, Jr. and Gerald Jay Sussman. The art of the interpreter, or the modularity complex (parts zero, one, and two). MIT Artificial Intelligence Memo 453, May 1978.  Home/Search   Document Not in Database   Summary   Related Articles   Check

....class escape procedures, from which all known sequential control structures can be synthesized. A few of these innovations have recently been incorporated into Common Lisp, while others remain to be adopted. Background The first description of Scheme was written in 1975 [48] A revised report [44] appeared in 1978, which described the evolution of the language as its MIT implementation was upgraded to support an innovative compiler [41] Three distinct projects began in 1981 and 1982 to use variants of Scheme for courses at MIT, Yale, and Indiana University [30, 23, 10] An introductory ....

Guy Lewis Steele, Jr. and Gerald Jay Sussman. The revised report on Scheme, a dialect of Lisp. MIT Artificial Intelligence Memo 452, January 1978.

....machine that takes the application as input and runs it. Interpreters act as runtime translators; program code that is targeted to run on the virtual machine is translated to run on the host machine. Examples include interpreters for programs written in LISP[46] Prolog[38] Basic[36] Scheme[34], Smalltalk[18] Perl[69] TCL[48] Pascal[59] Python[68] Self[29] and Java[41] One benefit of interpreted execution is the platform independence of the application program; an application program can run on any machine on which the interpreter virtual machine runs. Another benefit of ....

Guy Lewis Steele Jr. and Gerald Jay Sussman. The revised report on Scheme, a dialect of Lisp. MIT Artificial Intelligence Memo 452, January 1978.

....and inexact numbers. With the appendix to this report Scheme becomes the first programming language to support hygienic macros, which permit the syntax of a block structured language to be extended reliably. Background The first description of Scheme was written in 1975 [91] A revised report [85] appeared in 1978, which described the evolution of the language as its MIT implementation was upgraded to support an innovative compiler [80] Three distinct projects began in 1981 and 1982 to use variants of Scheme for courses at MIT, Yale, and Indiana University [66, 57, 34] An introductory ....

Guy Lewis Steele Jr. and Gerald Jay Sussman. The revised report on Scheme, a dialect of Lisp. MIT Artificial Intelligence Memo 452, January 1978.

....arithmetic. More recently, Scheme became the first programming language to support hygienic macros, which permit the syntax of a block structured language to be extended in a consistent and reliable manner. Background The first description of Scheme was written in 1975 [28] A revised report [25] appeared in 1978, which described the evolution of the language as its MIT implementation was upgraded to support an innovative compiler [26] Three distinct projects began in 1981 and 1982 to use variants of Scheme for courses at MIT, Yale, and Indiana University [21, 17, 10] An introductory ....

Guy Lewis Steele Jr. and Gerald Jay Sussman. The revised report on Scheme, a dialect of Lisp. MIT Artificial Intelligence Memo 452, January 1978.

....arithmetic. More recently, Scheme became the first programming language to support hygienic macros, which permit the syntax of a block structured language to be extended in a consistent and reliable manner. Background The first description of Scheme was written in 1975 [28] A revised report [25] appeared in 1978, which described the evolution of the language as its MIT implementation was upgraded to support an innovative compiler [26] Three distinct projects began in 1981 and 1982 to use variants of Scheme for courses at MIT, Yale, and Indiana University [21, 17, 10] An introductory ....

Guy Lewis Steele Jr. and Gerald Jay Sussman. The revised report on Scheme, a dialect of Lisp. MIT Artificial Intelligence Memo 452, January 1978.

....arithmetic. More recently, Scheme became the first programming language to support hygienic macros, which permit the syntax of a block structured language to be extended in a consistent and reliable manner. Background The first description of Scheme was written in 1975 [28] A revised report [25] appeared in 1978, which described the evolution of the language as its MIT implementation was upgraded to support an innovative compiler [26] Three distinct projects began in 1981 and 1982 to use variants of Scheme for courses at MIT, Yale, and Indiana University [21, 17, 10] An introductory ....

Guy Lewis Steele Jr. and Gerald Jay Sussman. The revised report on Scheme, a dialect of Lisp. MIT Artificial Intelligence Memo 452, January 1978.

No context found.

Guy Lewis Steele, Jr. and Gerald Jay Sussman. The art of the interpreter, or the modularity complex (parts zero, one, and two). MIT Artificial Intelligence Memo 453, May 1978.

No context found.

Guy Lewis Steele Jr. Lambda, the ultimate declarative. MIT Artificial Intelligence Memo 379, November 1976.

No context found.

Guy Lewis Steele Jr. and Gerald Jay Sussman. Lambda, the ultimate imperative. MIT Artificial Intelligence Memo 353, March 1976. Revised 3 Scheme

No context found.

Guy Lewis Steele Jr. and Gerald Jay Sussman. The art of the interpreter, or the modularity complex (parts zero, one, and two). MIT Artificial Intelligence Memo 453, May 1978.

No context found.

Guy Lewis Steele Jr. and Gerald Jay Sussman. Lambda, the ultimate imperative. MIT Artificial Intelligence Memo 353, March 1976.

No context found.

Guy Lewis Steele Jr. Lambda, the ultimate declarative. MIT Artificial Intelligence Memo 379, November 1976.

Online articles have much greater impact   More about CiteSeer.IST   Add search form to your site   Submit documents   Feedback  

CiteSeer.IST - Copyright Penn State and NEC