1 /******************************************************************* 2 ** s t a c k . c 3 ** Forth Inspired Command Language 4 ** Author: John Sadler (john_sadler@alum.mit.edu) 5 ** Created: 16 Oct 1997 6 ** $Id: stack.c,v 1.10 2001/12/05 07:21:34 jsadler Exp $ 7 *******************************************************************/ 8 /* 9 ** Copyright (c) 1997-2001 John Sadler (john_sadler@alum.mit.edu) 10 ** All rights reserved. 11 ** 12 ** Get the latest Ficl release at http://ficl.sourceforge.net 13 ** 14 ** I am interested in hearing from anyone who uses ficl. If you have 15 ** a problem, a success story, a defect, an enhancement request, or 16 ** if you would like to contribute to the ficl release, please 17 ** contact me by email at the address above. 18 ** 19 ** L I C E N S E and D I S C L A I M E R 20 ** 21 ** Redistribution and use in source and binary forms, with or without 22 ** modification, are permitted provided that the following conditions 23 ** are met: 24 ** 1. Redistributions of source code must retain the above copyright 25 ** notice, this list of conditions and the following disclaimer. 26 ** 2. Redistributions in binary form must reproduce the above copyright 27 ** notice, this list of conditions and the following disclaimer in the 28 ** documentation and/or other materials provided with the distribution. 29 ** 30 ** THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 31 ** ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 32 ** IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 33 ** ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 34 ** FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 35 ** DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 36 ** OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 37 ** HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 38 ** LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 39 ** OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 40 ** SUCH DAMAGE. 41 */ 42 43 44 #ifdef TESTMAIN 45 #include <stdlib.h> 46 #else 47 #include <stand.h> 48 #endif 49 #include "ficl.h" 50 51 #define STKDEPTH(s) ((s)->sp - (s)->base) 52 53 /* 54 ** N O T E: Stack convention: 55 ** 56 ** sp points to the first available cell 57 ** push: store value at sp, increment sp 58 ** pop: decrement sp, fetch value at sp 59 ** Stack grows from low to high memory 60 */ 61 62 /******************************************************************* 63 v m C h e c k S t a c k 64 ** Check the parameter stack for underflow or overflow. 65 ** nCells controls the type of check: if nCells is zero, 66 ** the function checks the stack state for underflow and overflow. 67 ** If nCells > 0, checks to see that the stack has room to push 68 ** that many cells. If less than zero, checks to see that the 69 ** stack has room to pop that many cells. If any test fails, 70 ** the function throws (via vmThrow) a VM_ERREXIT exception. 71 *******************************************************************/ 72 void vmCheckStack(FICL_VM *pVM, int popCells, int pushCells) 73 { 74 FICL_STACK *pStack = pVM->pStack; 75 int nFree = pStack->base + pStack->nCells - pStack->sp; 76 77 if (popCells > STKDEPTH(pStack)) 78 { 79 vmThrowErr(pVM, "Error: stack underflow"); 80 } 81 82 if (nFree < pushCells - popCells) 83 { 84 vmThrowErr(pVM, "Error: stack overflow"); 85 } 86 87 return; 88 } 89 90 #if FICL_WANT_FLOAT 91 void vmCheckFStack(FICL_VM *pVM, int popCells, int pushCells) 92 { 93 FICL_STACK *fStack = pVM->fStack; 94 int nFree = fStack->base + fStack->nCells - fStack->sp; 95 96 if (popCells > STKDEPTH(fStack)) 97 { 98 vmThrowErr(pVM, "Error: float stack underflow"); 99 } 100 101 if (nFree < pushCells - popCells) 102 { 103 vmThrowErr(pVM, "Error: float stack overflow"); 104 } 105 } 106 #endif 107 108 /******************************************************************* 109 s t a c k C r e a t e 110 ** 111 *******************************************************************/ 112 113 FICL_STACK *stackCreate(unsigned nCells) 114 { 115 size_t size = sizeof (FICL_STACK) + nCells * sizeof (CELL); 116 FICL_STACK *pStack = ficlMalloc(size); 117 118 #if FICL_ROBUST 119 assert (nCells != 0); 120 assert (pStack != NULL); 121 #endif 122 123 pStack->nCells = nCells; 124 pStack->sp = pStack->base; 125 pStack->pFrame = NULL; 126 return pStack; 127 } 128 129 130 /******************************************************************* 131 s t a c k D e l e t e 132 ** 133 *******************************************************************/ 134 135 void stackDelete(FICL_STACK *pStack) 136 { 137 if (pStack) 138 ficlFree(pStack); 139 return; 140 } 141 142 143 /******************************************************************* 144 s t a c k D e p t h 145 ** 146 *******************************************************************/ 147 148 int stackDepth(FICL_STACK *pStack) 149 { 150 return STKDEPTH(pStack); 151 } 152 153 /******************************************************************* 154 s t a c k D r o p 155 ** 156 *******************************************************************/ 157 158 void stackDrop(FICL_STACK *pStack, int n) 159 { 160 #if FICL_ROBUST 161 assert(n > 0); 162 #endif 163 pStack->sp -= n; 164 return; 165 } 166 167 168 /******************************************************************* 169 s t a c k F e t c h 170 ** 171 *******************************************************************/ 172 173 CELL stackFetch(FICL_STACK *pStack, int n) 174 { 175 return pStack->sp[-n-1]; 176 } 177 178 void stackStore(FICL_STACK *pStack, int n, CELL c) 179 { 180 pStack->sp[-n-1] = c; 181 return; 182 } 183 184 185 /******************************************************************* 186 s t a c k G e t T o p 187 ** 188 *******************************************************************/ 189 190 CELL stackGetTop(FICL_STACK *pStack) 191 { 192 return pStack->sp[-1]; 193 } 194 195 196 /******************************************************************* 197 s t a c k L i n k 198 ** Link a frame using the stack's frame pointer. Allot space for 199 ** nCells cells in the frame 200 ** 1) Push pFrame 201 ** 2) pFrame = sp 202 ** 3) sp += nCells 203 *******************************************************************/ 204 205 void stackLink(FICL_STACK *pStack, int nCells) 206 { 207 stackPushPtr(pStack, pStack->pFrame); 208 pStack->pFrame = pStack->sp; 209 pStack->sp += nCells; 210 return; 211 } 212 213 214 /******************************************************************* 215 s t a c k U n l i n k 216 ** Unink a stack frame previously created by stackLink 217 ** 1) sp = pFrame 218 ** 2) pFrame = pop() 219 *******************************************************************/ 220 221 void stackUnlink(FICL_STACK *pStack) 222 { 223 pStack->sp = pStack->pFrame; 224 pStack->pFrame = stackPopPtr(pStack); 225 return; 226 } 227 228 229 /******************************************************************* 230 s t a c k P i c k 231 ** 232 *******************************************************************/ 233 234 void stackPick(FICL_STACK *pStack, int n) 235 { 236 stackPush(pStack, stackFetch(pStack, n)); 237 return; 238 } 239 240 241 /******************************************************************* 242 s t a c k P o p 243 ** 244 *******************************************************************/ 245 246 CELL stackPop(FICL_STACK *pStack) 247 { 248 return *--pStack->sp; 249 } 250 251 void *stackPopPtr(FICL_STACK *pStack) 252 { 253 return (*--pStack->sp).p; 254 } 255 256 FICL_UNS stackPopUNS(FICL_STACK *pStack) 257 { 258 return (*--pStack->sp).u; 259 } 260 261 FICL_INT stackPopINT(FICL_STACK *pStack) 262 { 263 return (*--pStack->sp).i; 264 } 265 266 #if (FICL_WANT_FLOAT) 267 float stackPopFloat(FICL_STACK *pStack) 268 { 269 return (*(--pStack->sp)).f; 270 } 271 #endif 272 273 /******************************************************************* 274 s t a c k P u s h 275 ** 276 *******************************************************************/ 277 278 void stackPush(FICL_STACK *pStack, CELL c) 279 { 280 *pStack->sp++ = c; 281 } 282 283 void stackPushPtr(FICL_STACK *pStack, void *ptr) 284 { 285 *pStack->sp++ = LVALUEtoCELL(ptr); 286 } 287 288 void stackPushUNS(FICL_STACK *pStack, FICL_UNS u) 289 { 290 *pStack->sp++ = LVALUEtoCELL(u); 291 } 292 293 void stackPushINT(FICL_STACK *pStack, FICL_INT i) 294 { 295 *pStack->sp++ = LVALUEtoCELL(i); 296 } 297 298 #if (FICL_WANT_FLOAT) 299 void stackPushFloat(FICL_STACK *pStack, FICL_FLOAT f) 300 { 301 *pStack->sp++ = LVALUEtoCELL(f); 302 } 303 #endif 304 305 /******************************************************************* 306 s t a c k R e s e t 307 ** 308 *******************************************************************/ 309 310 void stackReset(FICL_STACK *pStack) 311 { 312 pStack->sp = pStack->base; 313 return; 314 } 315 316 317 /******************************************************************* 318 s t a c k R o l l 319 ** Roll nth stack entry to the top (counting from zero), if n is 320 ** >= 0. Drop other entries as needed to fill the hole. 321 ** If n < 0, roll top-of-stack to nth entry, pushing others 322 ** upward as needed to fill the hole. 323 *******************************************************************/ 324 325 void stackRoll(FICL_STACK *pStack, int n) 326 { 327 CELL c; 328 CELL *pCell; 329 330 if (n == 0) 331 return; 332 else if (n > 0) 333 { 334 pCell = pStack->sp - n - 1; 335 c = *pCell; 336 337 for (;n > 0; --n, pCell++) 338 { 339 *pCell = pCell[1]; 340 } 341 342 *pCell = c; 343 } 344 else 345 { 346 pCell = pStack->sp - 1; 347 c = *pCell; 348 349 for (; n < 0; ++n, pCell--) 350 { 351 *pCell = pCell[-1]; 352 } 353 354 *pCell = c; 355 } 356 return; 357 } 358 359 360 /******************************************************************* 361 s t a c k S e t T o p 362 ** 363 *******************************************************************/ 364 365 void stackSetTop(FICL_STACK *pStack, CELL c) 366 { 367 pStack->sp[-1] = c; 368 return; 369 } 370 371 372