8:["$","$L22",null,{"documentTextVersion":{"pageTexts":["SEGUNDA EDICION\n\n_______EL\nLENGUAJE DE\nPROGRAMACION\n\nBRIAN W. KERNIGHAN\nDENNIS M. RITCHIE\nPearson\nEducaci贸n","EDICION EN INGLES\nUNIX es una matea registrada AT & T\n\nEL LENGUAJE 1)E PROGRAMACION C___________________\nTraducido de la segunda edición en inglés de:\nTHE C PROGRAMMING LANGUAGE\nProhibida la reproducción total o parcial de esta obra, por cualquier medio o método\nsin autorización escrita del editor\nDERECHOS RESERVADOS © 1991 respecto a la segunda edición en español por\nPRENTICE-HALL HISPANOAMERICANA, SA.\nAtlacomulco Núm. 500-5° Piso\nCol. Industrial Atoto\n53519, Naucalpan de Juárez, Edo. de México\nMiembro de la Cámara Nacional de la Industria Editorial, Reg. Núm. 1524\nISBN 968-880-205-0\n\nOriginal English language edition published by\nCopyright © MCMLXXXVII1 by Prentice-Hall, inc.\nAll Rights Reserved\nISBN 0-J3-110362-8\n\nIMPRESO EN MEXICO / PRINTED IN MEXICO","CONTENIDO\nPrefacio\n\nix\n\nPrefacio a la primera edición\n\nxi\n\nIntroducción\nCapítulo 1. Introducción general\n\n1.1\n1.2\n1.3\n1.4\n1.5\n1.6\n1.7\n1.8\n1.9\n1.10\n\nComencemos\nVariables y expresiones aritméticas\nLa proposición for\nConstantes simbólicas\nEntrada y salida de caracteres\nArreglos\nFunciones\nArgumentos—llamada por valor\nArreglos de caracteres\nVariables externas y alcance\n\nCapítulo 2. Tipos, operadores y expresiones\n\n2.1 Nombres de variables\n2.2 Tipos y tamaños de datos\n2.3 Constantes\n2.4 Declaraciones\n2.5 Operadores aritméticos\n2.6 Operadores de relación y lógicos\n2.7 Conversiones de tipo\n2.8 Operadores de incremento y decremento\n£.9 Operadores para manejo de bits\n2.10 Operadores de asignación y expresiones\n2.11 Expresiones condicionales\n2.12 Precedencia y orden de evaluación\nCapítulo 3. Control de flujo\n\n3.1\n3.2\n3.3\n3.4\n3.5\n3.6\n\nProposiciones y bloques\nIf-else\nElse-if\nSwitch\nCiclos—while y for\nCiclos—do-while\n\n1\n5\n\n5\n8\n\n14\n15\n16\n23\n26\n29\n30\n33\n39\n\n39\n\n40\n41\n44\n45\n46\n47\n51\n53\n55\n56\n57\n61\n\n61\n61\n63\n64\n66\n\n70","$23","$24","","$25","$26","$27","xii PREFACIO A LA PRIMERA EDICION\n\nLas críticas y sugerencias de muchos amigos y colegas han aumentado muchí\nsimo los conceptos de este libro y ha sido un placer escribirlo. En particular nues\ntro agradecimiento a Mike Bianchi, Jim Blue, Stu Feldman, Doug Mcllroy, Bill\nRoome, Bob Rosin y Larry Rosler que leyeron cuidadosamente las numerosas\nversiones. También agradecemos Al Aho, Steve Bourne, Dan Dvorak, Chuck\nHaley, Debbie Haley, Marión Harrris, Rick Holt, Steve Johnson, John Mashey,\nBob Mitze, Ralph Muha, Peter Nelson, Elliot Pinson, Bill Plauger, Jerry Spivack, Ken Thompson y Peter Weinberger por sus valiosos comentarios a través\nde varias etapas; a Mike Lesk y Joe Ossanna, por su invaluable ayuda en la im\npresión.\n\nBrian W. Kernighan\nDennis M. Ritchie","$28","$29","$2a","$2b","$2c","$2d","$2e","$2f","$30","$31","$32","$33","$34","$35","$36","$37","$38","$39","$3a","$3b","$3c","$3d","$3e","$3f","$40","$41","$42","$43","$44","$45","$46","$47","$48","34 INTRODUCCION GENERAL\n\nCAPITULO 1\n\nprograma de la línea más larga con line, longest y max como variables externas.\nEsto requiere cambiar las llamadas, declaraciones y cuerpos de las tres funciones.\n#include \n#define MAXLINE 1000 /* máximo tamaño de una línea de entrada */\nint max;\n/• máxima longitud vista hasta el momento */\nchar line [MAXLINE];\n/* línea de entrada actual */\nchar longest [MAXLINE]; /* la línea más larga se guarda aquí */\nint getline(void);\nvoid copy (void);\n\n/* imprime la línea de entrada más larga; versión especializada */\nmain( )\n\n{\nint len;\nextern int max;\nextern char longest [];\nmax = 0;\nwhile ((len = getline( )) > 0)\nif (len > max) {\nmax = len;\ncopy( );\n\n}\nif (max >0) /* hubo una línea */\nprintf(\"%s\", longest);\nreturn 0;\n\n}\n\n/* getline: versión especializada */\nint getline(void)\n\n{\nint c, i;\nextern char line[];\nfor (i = 0; i < MAXLINE-1\n&& (c = getchar( )) ! = EOF && c ! = '\\n'; + + i)\nline [i] = c;","$49","$4a","SECCION 1.10\n\nVARIABLES EXTERNAS Y ALCANCE\n\n37\n\nEjercicio 1-24. Escriba un programa para revisar los errores de sintaxis rudimen\ntarios de un programa en C, como paréntesis, llaves y corchetes no alineados. No\nolvide las comillas ni los apóstrofos, las secuencias de escape y los comentarios.\n(Este programa es difícil si se hace completamente general.) □","","$4b","$4c","$4d","$4e","$4f","$50","$51","$52","$53","$54","$55","$56","$57","$58","$59","$5a","$5b","$5c","$5d","$5e","$5f","","$60","$61","$62","$63","$64","$65","$66","$67","$68","$69","SECCION 3.8\n\nGOTO Y ETIQUETAS 73\n\nfor (i = 0; i < n; i+ +)\nfor (j = 0; j < m; j + +)\nif (a[i] = = b[j]\ngoto encontrado;\n/* no se encontró ningún elemento en común */\nencontrado:\n/* se tiene uno: a[i] = = b[j] */\n\nEl código que involucra un goto siempre puede escribirse sin él, aunque tal\nvez al precio de algunas pruebas repetidas o variables extra. Por ejemplo, la bús\nqueda en los arreglos quedará\nencontrado = 0;\nfor (i = 0; i < n && ¡encontrado; i+ +)\nfor (j = 0; j < m && ¡encontrado; j+ +)\nif(a[i] = = b[j])\nencontrado = 1;\nif (encontrado)\n/* se tiene uno: a[i—1] = = b[j—1] */\nelse\n/* no se encontró algún elemento en común */\n\nCon pocas excepciones, como las citadas aquí, el código que se basa en pro\nposiciones goto es generalmente más difícil de entender y de mantener que el códi\ngo sin ellas. Aunque no somos dogmáticos acerca del asunto, se ve que las\nproposiciones goto deben ser utilizadas raramente, si acaso.","","$6a","$6b","$6c","$6d","$6e","$6f","$70","$71","84 FUNCIONES Y LA ESTRUCTURA DEL PROGRAMA\n\nCAPITULO 4\n\n#includej\n#defines\ndeclaración de funciones para main\nmain( ) { . . . }\nvariables externas para push y pop\nvoid push(double f) { ... }\ndouble pop(void) { ... }\nint getop(char s[ ] ) { . . . }\nrutinas llamadas por getop\n\nMás adelante se verá cómo esto se puede dividir entre dos o más archivos fuente.\nLa función main es un ciclo que contiene un gran switch sobre el tipo de ope\nrador y operando; éste es un uso del switch más típico que el mostrado en la sec\nción 3.4.\n#include \n#include \n\n/* para atof( ) */\n\n#define MAXOP 100\n#define NUMBER '0'\n\n/* máx tamaño de operando u operador */\n/* señal de que un número se encontró */\n\nint getop(char [ ]);\nvoid push(double);\ndouble pop(void);\n/* calculadora polaca inversa */\nmain( )\n\n{\nint type;\ndouble op2;\nchar s[MAXOP];\nwhile ((type = getop(s)) ! = EOF) {\nswitch (type) {\ncase NUMBER:\npush(atof(s));\nbreak;\ncase ' +\npush(pop( ) + pop( ));\nbreak;","SECCION 4.3\n\nVARIABLES EXTERNAS 85\n\ncase\npush(pop( ) * pop( ));\nbreak;\ncase\n°p2 = pop( );\npush(pop( ) — op2);\nbreak;\ncase\n= pop( );\nif (oP2 ! = 0.0)\npush(pop( ) / op2);\nelse\nprintf(\"error: divisor cero\\n\");\nbreak;\ncase '\\n':\nprintf(\"\\t%.8g\\n\", pop( ));\nbreak;\ndefault:\nprintf (“error: comando desconocido %s\\n\"( s);\nbreak;\n°P 2\n\n}\n}\nreturn 0;\n\n}\nPuesto que + y * son operadores conmutativos, el orden en el que se combinan\nlos operandos extraídos es irrelevante, pero para - y / deben distinguirse los ope\nrandos izquierdo y derecho. En\npush(pop( ) - pop( )); /* INCORRECTO */\n\nno se define el orden en el que se evalúan las dos llamadas de pop. Para garanti\nzar el orden correcto, es necesario extraer el primer valor en una variable tempo\nral, como se hizo en main.\n#define MAXVAL 100 /* máxima profundidad de la pila val */\nint sp = 0;\n/* siguiente posición libre en la pila */\ndouble val [MAX VAL]; /* valores de la pila */\n/* push: introduce f ala pila */\nvoid push(double f)\n\n{\nif (sp < MAXVAL)\nval[sp + + ] = f;","$72","$73","$74","$75","$76","$77","$78","$79","$7a","$7b","$7c","$7d","$7e","$7f","$80","$81","","$82","$83","$84","$85","$86","$87","$88","$89","$8a","$8b","$8c","$8d","$8e","$8f","$90","$91","$92","$93","$94","$95","$96","$97","$98","$99","$9a","$9b","ARGUMENTOS EN LA LINEA DE COMANDOS\n\nSECCION 5.10\n\n129\n\n#include < stdio,h>\n\n#include \n#define MAXLINE 1000\nint getline(char *line, int max);\n/*\n\nfind:\n\nimprime\n\nlíneas\n\nque\n\ncoinciden\n\ncon\n\nel\n\npatrón\n\ndel\n\n1er.\n\nargumento\n\n*/\n\nmain(int argc, char *argv[ ])\n\n{\nchar line [MAXLINE];\nlong lineno = 0;\nint c, except = 0, number = 0, found = 0;\nwhile (—argc > 0 && (* + +argv)[0] = =\nwhile (c = * + +argv[0])\nswitch (c) {\ncase 'x':\nexcept = 1;\nbreak;\ncase 'n':\nnumber = 1;\nbreak;\ndefault:\nprintf (\"find: opción ilegal %c\\n\", c);\nargc = 0;\nfound = —1;\nbreak;\n\n}\nif (argc ! = 1)\nprintf (\"Uso: find -x —n patrón\\n\");\nelse\nwhile (getline(line, MAXLINE) > 0) {\nlineno + +;\nif ((strstr(line, *argv) ! = NULL) ! = except) {\nif (number)\nprintf(\"%ld:\"f lineno);\nprintf(\"%s\", line);\nfound + +;\n\n}\n}\nreturn found;\n\n}\n*r9c se disminuye y argv se incrementa antes de cada argumento opcional,\nmal del ciclo, si no hay errores, argc dice cuántos argumentos permanecen","$9c","$9d","$9e","$9f","$a0","$a1","$a2","$a3","$a4","SECCION 5.12\n\nDECLARACIONES COMPLICADAS\n\n139\n\nsprintf(temp, \"(*%s)\", out);\nstrcpy (out, temp);\n} else if (type = = ÑAME) {\nsprintf(temp, \"%s %s\", token, out);\nstrcpy(out, temp);\n} else\nprintf \"entrada inválida en %s\\n\", token);\nprintf(\"%s\\n\", out);\n\n}\nretum 0;\n\n}\nEjercicio 5-18. Haga que del se recupere de errores en la entrada. □\nEjercicio 5-19. Modifique undcl de modo que no agregue paréntesis redundantes\na las declaraciones. □\nEjercicio 5-20. Extiende del para que maneje declaraciones con tipos de argu\n\nmentos de funciones, calificadores como const, etcétera. □","","$a5","$a6","$a7","$a8","$a9","$aa","$ab","$ac","$ad","$ae","$af","$b0","$b1","$b2","$b3","$b4","$b5","$b6","$b7","$b8","$b9","$ba","$bb","$bc","$bd","$be","$bf","$c0","$c1","$c2","$c3","$c4","$c5","$c6","$c7","$c8","$c9","$ca","$cb","$cc","$cd","$ce","$cf","$d0","","$d1","$d2","$d3","$d4","$d5","$d6","$d7","$d8","$d9","$da","$db","$dc","$dd","$de","$df","$e0","$e1","$e2","$e3","$e4","$e5","$e6","SECCION 8.7\n\nEJEMPLO—ASIGNADOR DE MEMORIA 209\n\nEjercicio 8-8. Escriba una rutina bfree(p,n)que libere un bloque arbitrario p\nde n caracteres en la lista libre mantenida por malloc y free. Utilizando bfree,\nun usuario puede agregar un arreglo estático o externo a la lista libre en cual\nquier momento. □","1","$e7","$e8","$e9","$ea","$eb","$ec","$ed","$ee","$ef","$f0","$f1","$f2","$f3","$f4","$f5","$f6","$f7","$f8","$f9","$fa","$fb","$fc","$fd","$fe","$ff","$100","$101","$102","$103","$104","$105","$106","$107","$108","$109","$10a","$10b","$10c","$10d","$10e","$10f","$110","$111","$112","$113","$114","$115","$116","$117","$118","$119","$11a","264 MANUAL DE REFERENCIA\n\n# line constante \"nombre-de-archivo\"\n# line constante\n# error secuencia-de-tokens op,\n# pragma secuencia-de-tokensopl\n#\npreprocesador-condicional\npreprocesador-condicional:\nlínea-if texto partes-elif parte-elseopl # endif\nlínea-if:\n# if expresión-constante\n# ifdef identificador\n# ifndef identificador\npartes-elif:\nlínea-elif texto\npartes-elifopt\nlínea-elif:\n# elif expresión-constante\nparte-else:\nlínea-else texto\nlínea-else:\n# else\n\nAPENDICE A","$11b","$11c","$11d","$11e","$11f","$120","$121","$122","$123","$124","$125","$126","$127","$128","$129","$12a","$12b","$12c","$12d","$12e","$12f","$130","$131","$132","$133","$134","$135","$136","$137","294 EL LENGUAJE DEL PROGRAMADOR C\ntipo float 39, 215\ntipo incompleto 235\ntipo int 9, 38, 235\ntipo long 10, 19, 38, 217, 234\nlipo long double 38, 217\ntipo por omisión de una función 33, 222\ntipo short 10, 38, 234, 235\ntipo signed 38, 234\ntipo unsigned 38, 56, 217, 234\ntipo unsigned char 38, 189\ntipo void 33, 216, 219, 234\ntipos aritméticos 216\ntipos derivados 1, 10, 216\ntipos flotantes 216\ntipos fundamentales 9. 38, 215\ntipos integrales 216\nTMP MAX, 267\ntruncamiento de punto flotante 49, 217\ntruncamiento por división 11, 45, 226\n\nINDICE\n\nULONG.MAX, 276\nunidad de tradución 211, 249, 251\nuso de buffer véase Setbuf Setvbuf\n\nvalor numérico de expresiones lógicas 48\nvalor numérico de una expresión de relación 46, 48\nvalor numérico de una expresión lógica 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