A palindrome implementation and testing application for A.U.TH. Microprocessors and peripherals Lab.
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  1. /*!
  2. * @file
  3. * main.c
  4. * @brief
  5. * A palindrome implementation and testing application
  6. * for A.U.TH. Microprocessors and peripherals Lab.
  7. *
  8. * Created on: May 1, 2020
  9. * Author: Christos Choutouridis AEM: 8997
  10. * email : <cchoutou@ece.auth.gr>
  11. */
  12. #include <stdint.h>
  13. /*!
  14. * The RAM address to use for palindrome result.
  15. * @note:
  16. * Select a RAM location above `__initial_sp`. See your startup_xx.s for details.
  17. * Keil's RAM layout is:
  18. *
  19. * RAM: |<-Heap_Size-><-Stack_Size->|<- WASTED RAM SPACE ->|
  20. * ^ ^ ^
  21. * | | |
  22. * Start:0x20000000 __initial_sp End of RAM
  23. *
  24. */
  25. #define RESULT 0x20001000
  26. /*!
  27. * String length calculation.
  28. * @arg R0: Pointer to string
  29. * @return R0: String length (unsigned)
  30. */
  31. __asm uint32_t strLength (const char* src) {
  32. // R0: length, return value
  33. // R1: src
  34. // R2: v = *src
  35. MOV R1, R0 // Get variable
  36. MOV R0, #0 // length{R0} =0;
  37. len_loop // do {
  38. LDRB R2, [R1], #1 // v{R2} = *src++;
  39. CMP R2, #0 // if(v)
  40. ADDNE R0, R0, #1 // ++length{R0};
  41. BNE len_loop // } while (v);
  42. BX LR // return length;
  43. }
  44. /*!
  45. * A string palindrome predicate.
  46. * @note
  47. * We use a simple O(n), no stack algorithm.
  48. * @note
  49. * This function also writes to RAM address @ref RESULT the return value (which is nasty).
  50. * @arg R0: Pointer to string
  51. * @return R0: True if predicate
  52. * False if not
  53. */
  54. __asm uint32_t isPalindrome (const char* src) {
  55. // R0: src[]
  56. // R1: i
  57. // R2: j
  58. // R3: v1 = src[i]
  59. // R4: v2 = src[j]
  60. PUSH {R4, LR}
  61. MOV R4, R0 // save R0
  62. BL strLength // j{R2} = strLength(src) - 1
  63. SUB R2, R0, #1
  64. MOV R0, R4 // src{R0}
  65. MOV R1, #0 // i{R1} =0;
  66. pal_loop
  67. CMP R1, R2 // while (i<j) {
  68. BGE pal_true
  69. LDRB R3, [R0, R1] // v1 = *src[i];
  70. LDRB R4, [R0, R2] // v2 = *src[j];
  71. CMP R3, R4 // if (v1 == v2) {
  72. ADDEQ R1, R1, #1 // ++i;
  73. SUBEQ R2, R2, #1 // --j;
  74. BEQ pal_loop // // goto loop;
  75. // } else
  76. MOV R0, #0 // return *RESULT = 0;
  77. LDR R1, =RESULT
  78. STRB R0, [R1]
  79. POP {R4, PC}
  80. // }
  81. pal_true
  82. MOV R0, #1 // return *RESULT = 1;
  83. LDR R1, =RESULT
  84. STRB R0, [R1]
  85. POP {R4, PC}
  86. }
  87. /*!
  88. * Main routine
  89. */
  90. int main(void) {
  91. const char *s1 = "hello world!"; // Not a palindrome
  92. const char *s2 = "aibohphobia"; // Aibophobia def= "Fear of palindromes", palindrome.
  93. uint32_t res1 = isPalindrome (s1); // Test case 1
  94. uint32_t res2 = isPalindrome (s2); // Test case 2
  95. while (1); // Trap forever
  96. //return 0; //!< comment out return, to suppress "statement is unreachable" warning.
  97. //!^ @note:
  98. //! **Weird** Keil's way for "statement is unreachable", suppresion.
  99. }