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581 lines
18 KiB
C
Executable File
581 lines
18 KiB
C
Executable File
/* Pawn compiler - Staging buffer and optimizer
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*
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* The staging buffer
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* ------------------
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* The staging buffer allows buffered output of generated code, deletion
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* of redundant code, optimization by a tinkering process and reversing
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* the ouput of evaluated expressions (which is used for the reversed
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* evaluation of arguments in functions).
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* Initially, stgwrite() writes to the file directly, but after a call to
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* stgset(TRUE), output is redirected to the buffer. After a call to
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* stgset(FALSE), stgwrite()'s output is directed to the file again. Thus
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* only one routine is used for writing to the output, which can be
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* buffered output or direct output.
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*
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* staging buffer variables: stgbuf - the buffer
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* stgidx - current index in the staging buffer
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* staging - if true, write to the staging buffer;
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* if false, write to file directly.
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*
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* Copyright (c) ITB CompuPhase, 1997-2005
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*
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* This software is provided "as-is", without any express or implied warranty.
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* In no event will the authors be held liable for any damages arising from
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* the use of this software.
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*
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* Permission is granted to anyone to use this software for any purpose,
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* including commercial applications, and to alter it and redistribute it
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* freely, subject to the following restrictions:
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*
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* 1. The origin of this software must not be misrepresented; you must not
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* claim that you wrote the original software. If you use this software in
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* a product, an acknowledgment in the product documentation would be
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* appreciated but is not required.
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* 2. Altered source versions must be plainly marked as such, and must not be
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* misrepresented as being the original software.
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* 3. This notice may not be removed or altered from any source distribution.
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*/
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#include <assert.h>
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#include <stdio.h>
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#include <stdlib.h> /* for atoi() */
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#include <string.h>
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#include <ctype.h>
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#if defined FORTIFY
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#include "fortify.h"
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#endif
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#include "sc.h"
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#if defined _MSC_VER
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#pragma warning(push)
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#pragma warning(disable:4125) /* decimal digit terminates octal escape sequence */
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#endif
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#include "sc7-in.scp"
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#if defined _MSC_VER
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#pragma warning(pop)
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#endif
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static void stgstring(char *start,char *end);
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static void stgopt(char *start,char *end);
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#define sSTG_GROW 512
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#define sSTG_MAX 20480
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static char *stgbuf = NULL;
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static int stgmax = 0; /* current size of the staging buffer */
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#define CHECK_STGBUFFER(index) if ((int)(index)>=stgmax) grow_stgbuffer((index)+1)
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static void grow_stgbuffer(int requiredsize)
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{
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char *p;
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int clear = stgbuf==NULL; /* if previously none, empty buffer explicitly */
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assert(stgmax<requiredsize);
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/* if the staging buffer (holding intermediate code for one line) grows
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* over a few kBytes, there is probably a run-away expression
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*/
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if (requiredsize>sSTG_MAX)
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error(102,"staging buffer"); /* staging buffer overflow (fatal error) */
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stgmax=requiredsize+sSTG_GROW;
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if (stgbuf!=NULL)
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p=(char *)realloc(stgbuf,stgmax*sizeof(char));
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else
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p=(char *)malloc(stgmax*sizeof(char));
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if (p==NULL)
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error(102,"staging buffer"); /* staging buffer overflow (fatal error) */
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stgbuf=p;
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if (clear)
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*stgbuf='\0';
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}
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SC_FUNC void stgbuffer_cleanup(void)
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{
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if (stgbuf!=NULL) {
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free(stgbuf);
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stgbuf=NULL;
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stgmax=0;
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} /* if */
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}
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/* the variables "stgidx" and "staging" are declared in "scvars.c" */
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/* stgmark
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*
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* Copies a mark into the staging buffer. At this moment there are three
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* possible marks:
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* sSTARTREORDER identifies the beginning of a series of expression
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* strings that must be written to the output file in
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* reordered order
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* sENDREORDER identifies the end of 'reverse evaluation'
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* sEXPRSTART + idx only valid within a block that is evaluated in
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* reordered order, it identifies the start of an
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* expression; the "idx" value is the argument position
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*
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* Global references: stgidx (altered)
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* stgbuf (altered)
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* staging (referred to only)
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*/
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SC_FUNC void stgmark(char mark)
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{
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if (staging) {
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CHECK_STGBUFFER(stgidx);
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stgbuf[stgidx++]=mark;
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} /* if */
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}
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static int filewrite(char *str)
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{
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if (sc_status==statWRITE)
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return pc_writeasm(outf,str);
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return TRUE;
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}
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/* stgwrite
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*
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* Writes the string "st" to the staging buffer or to the output file. In the
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* case of writing to the staging buffer, the terminating byte of zero is
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* copied too, but... the optimizer can only work on complete lines (not on
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* fractions of it. Therefore if the string is staged, if the last character
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* written to the buffer is a '\0' and the previous-to-last is not a '\n',
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* the string is concatenated to the last string in the buffer (the '\0' is
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* overwritten). This also means an '\n' used in the middle of a string isn't
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* recognized and could give wrong results with the optimizer.
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* Even when writing to the output file directly, all strings are buffered
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* until a whole line is complete.
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*
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* Global references: stgidx (altered)
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* stgbuf (altered)
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* staging (referred to only)
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*/
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SC_FUNC void stgwrite(const char *st)
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{
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int len;
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CHECK_STGBUFFER(0);
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if (staging) {
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if (stgidx>=2 && stgbuf[stgidx-1]=='\0' && stgbuf[stgidx-2]!='\n')
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stgidx-=1; /* overwrite last '\0' */
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while (*st!='\0') { /* copy to staging buffer */
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CHECK_STGBUFFER(stgidx);
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stgbuf[stgidx++]=*st++;
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} /* while */
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CHECK_STGBUFFER(stgidx);
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stgbuf[stgidx++]='\0';
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} else {
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CHECK_STGBUFFER(strlen(stgbuf)+strlen(st)+1);
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strcat(stgbuf,st);
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len=strlen(stgbuf);
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if (len>0 && stgbuf[len-1]=='\n') {
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filewrite(stgbuf);
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stgbuf[0]='\0';
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} /* if */
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} /* if */
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}
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/* stgout
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*
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* Writes the staging buffer to the output file via stgstring() (for
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* reversing expressions in the buffer) and stgopt() (for optimizing). It
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* resets "stgidx".
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*
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* Global references: stgidx (altered)
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* stgbuf (referred to only)
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* staging (referred to only)
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*/
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SC_FUNC void stgout(int index)
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{
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if (!staging)
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return;
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stgstring(&stgbuf[index],&stgbuf[stgidx]);
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stgidx=index;
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}
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typedef struct {
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char *start,*end;
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} argstack;
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/* stgstring
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*
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* Analyses whether code strings should be output to the file as they appear
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* in the staging buffer or whether portions of it should be re-ordered.
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* Re-ordering takes place in function argument lists; Pawn passes arguments
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* to functions from right to left. When arguments are "named" rather than
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* positional, the order in the source stream is indeterminate.
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* This function calls itself recursively in case it needs to re-order code
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* strings, and it uses a private stack (or list) to mark the start and the
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* end of expressions in their correct (reversed) order.
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* In any case, stgstring() sends a block as large as possible to the
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* optimizer stgopt().
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*
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* In "reorder" mode, each set of code strings must start with the token
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* sEXPRSTART, even the first. If the token sSTARTREORDER is represented
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* by '[', sENDREORDER by ']' and sEXPRSTART by '|' the following applies:
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* '[]...' valid, but useless; no output
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* '[|...] valid, but useless; only one string
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* '[|...|...] valid and usefull
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* '[...|...] invalid, first string doesn't start with '|'
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* '[|...|] invalid
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*/
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static void stgstring(char *start,char *end)
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{
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char *ptr;
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int nest,argc,arg;
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argstack *stack;
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while (start<end) {
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if (*start==sSTARTREORDER) {
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start+=1; /* skip token */
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/* allocate a argstack with sMAXARGS items */
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stack=(argstack *)malloc(sMAXARGS*sizeof(argstack));
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if (stack==NULL)
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error(103); /* insufficient memory */
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nest=1; /* nesting counter */
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argc=0; /* argument counter */
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arg=-1; /* argument index; no valid argument yet */
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do {
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switch (*start) {
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case sSTARTREORDER:
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nest++;
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start++;
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break;
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case sENDREORDER:
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nest--;
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start++;
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break;
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default:
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if ((*start & sEXPRSTART)==sEXPRSTART) {
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if (nest==1) {
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if (arg>=0)
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stack[arg].end=start-1; /* finish previous argument */
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arg=(unsigned char)*start - sEXPRSTART;
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stack[arg].start=start+1;
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if (arg>=argc)
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argc=arg+1;
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} /* if */
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start++;
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} else {
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start+=strlen(start)+1;
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} /* if */
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} /* switch */
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} while (nest); /* enddo */
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if (arg>=0)
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stack[arg].end=start-1; /* finish previous argument */
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while (argc>0) {
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argc--;
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stgstring(stack[argc].start,stack[argc].end);
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} /* while */
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free(stack);
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} else {
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ptr=start;
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while (ptr<end && *ptr!=sSTARTREORDER)
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ptr+=strlen(ptr)+1;
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stgopt(start,ptr);
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start=ptr;
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} /* if */
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} /* while */
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}
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/* stgdel
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*
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* Scraps code from the staging buffer by resetting "stgidx" to "index".
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*
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* Global references: stgidx (altered)
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* staging (reffered to only)
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*/
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SC_FUNC void stgdel(int index,cell code_index)
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{
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if (staging) {
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stgidx=index;
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code_idx=code_index;
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} /* if */
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}
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SC_FUNC int stgget(int *index,cell *code_index)
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{
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if (staging) {
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*index=stgidx;
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*code_index=code_idx;
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} /* if */
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return staging;
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}
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/* stgset
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*
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* Sets staging on or off. If it's turned off, the staging buffer must be
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* initialized to an empty string. If it's turned on, the routine makes sure
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* the index ("stgidx") is set to 0 (it should already be 0).
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*
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* Global references: staging (altered)
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* stgidx (altered)
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* stgbuf (contents altered)
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*/
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SC_FUNC void stgset(int onoff)
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{
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staging=onoff;
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if (staging){
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assert(stgidx==0);
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stgidx=0;
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CHECK_STGBUFFER(stgidx);
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/* write any contents that may be put in the buffer by stgwrite()
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* when "staging" was 0
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*/
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if (strlen(stgbuf)>0)
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filewrite(stgbuf);
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} /* if */
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stgbuf[0]='\0';
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}
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/* phopt_init
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* Initialize all sequence strings of the peehole optimizer. The strings
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* are embedded in the .EXE file in compressed format, here we expand
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* them (and allocate memory for the sequences).
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*/
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static SEQUENCE *sequences = sequences_cmp;
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SC_FUNC int phopt_init(void)
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{
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return TRUE;
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}
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SC_FUNC int phopt_cleanup(void)
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{
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return FALSE;
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}
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#define MAX_OPT_VARS 4
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#define MAX_OPT_CAT 4 /* max. values that are concatenated */
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#if sNAMEMAX > (PAWN_CELL_SIZE/4) * MAX_OPT_CAT
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#define MAX_ALIAS sNAMEMAX
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#else
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#define MAX_ALIAS (PAWN_CELL_SIZE/4) * MAX_OPT_CAT
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#endif
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static int matchsequence(const char *start,const char *end,const char *pattern,
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char symbols[MAX_OPT_VARS][MAX_ALIAS+1],
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int *match_length)
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{
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int var,i;
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char str[MAX_ALIAS+1];
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const char *start_org=start;
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cell value;
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char *ptr;
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*match_length=0;
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for (var=0; var<MAX_OPT_VARS; var++)
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symbols[var][0]='\0';
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while (*start=='\t' || *start==' ')
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start++;
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while (*pattern) {
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if (start>=end)
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return FALSE;
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switch (*pattern) {
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case '%': /* new "symbol" */
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pattern++;
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assert(isdigit(*pattern));
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var=atoi(pattern) - 1;
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assert(var>=0 && var<MAX_OPT_VARS);
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assert(*start=='-' || alphanum(*start));
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for (i=0; start<end && (*start=='-' || *start=='+' || alphanum(*start)); i++,start++) {
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assert(i<=MAX_ALIAS);
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str[i]=*start;
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} /* for */
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str[i]='\0';
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if (symbols[var][0]!='\0') {
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if (strcmp(symbols[var],str)!=0)
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return FALSE; /* symbols should be identical */
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} else {
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strcpy(symbols[var],str);
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} /* if */
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break;
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case '-':
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value=-strtol(pattern+1,(char **)&pattern,16);
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ptr=itoh((ucell)value);
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while (*ptr!='\0') {
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if (tolower(*start) != tolower(*ptr))
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return FALSE;
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start++;
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ptr++;
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} /* while */
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pattern--; /* there is an increment following at the end of the loop */
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break;
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case ' ':
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if (*start!='\t' && *start!=' ')
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return FALSE;
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while ((start<end && *start=='\t') || *start==' ')
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start++;
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break;
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case '!':
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while ((start<end && *start=='\t') || *start==' ')
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start++; /* skip trailing white space */
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if (*start!='\n')
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return FALSE;
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assert(*(start+1)=='\0');
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start+=2; /* skip '\n' and '\0' */
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if (*(pattern+1)!='\0')
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while ((start<end && *start=='\t') || *start==' ')
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start++; /* skip leading white space of next instruction */
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break;
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default:
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if (tolower(*start) != tolower(*pattern))
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return FALSE;
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start++;
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} /* switch */
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pattern++;
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} /* while */
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*match_length=(int)(start-start_org);
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return TRUE;
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}
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static char *replacesequence(const char *pattern,char symbols[MAX_OPT_VARS][MAX_ALIAS+1],int *repl_length)
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{
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const char *lptr;
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int var;
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char *buffer;
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/* calculate the length of the new buffer
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* this is the length of the pattern plus the length of all symbols (note
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* that the same symbol may occur multiple times in the pattern) plus
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* line endings and startings ('\t' to start a line and '\n\0' to end one)
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*/
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assert(repl_length!=NULL);
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*repl_length=0;
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lptr=pattern;
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while (*lptr) {
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switch (*lptr) {
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case '%':
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lptr++; /* skip '%' */
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assert(isdigit(*lptr));
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var=atoi(lptr) - 1;
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assert(var>=0 && var<MAX_OPT_VARS);
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assert(symbols[var][0]!='\0'); /* variable should be defined */
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*repl_length+=strlen(symbols[var]);
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break;
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case '!':
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*repl_length+=3; /* '\t', '\n' & '\0' */
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break;
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default:
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*repl_length+=1;
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} /* switch */
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lptr++;
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} /* while */
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/* allocate a buffer to replace the sequence in */
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if ((buffer=(char*)malloc(*repl_length))==NULL)
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return (char*)error(103);
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/* replace the pattern into this temporary buffer */
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char *ptr=buffer;
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*ptr++='\t'; /* the "replace" patterns do not have tabs */
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while (*pattern) {
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assert((int)(ptr-buffer)<*repl_length);
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switch (*pattern) {
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case '%':
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/* write out the symbol */
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pattern++;
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assert(isdigit(*pattern));
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var=atoi(pattern) - 1;
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assert(var>=0 && var<MAX_OPT_VARS);
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assert(symbols[var][0]!='\0'); /* variable should be defined */
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strcpy(ptr,symbols[var]);
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ptr+=strlen(symbols[var]);
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break;
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case '!':
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/* finish the line, optionally start the next line with an indent */
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*ptr++='\n';
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*ptr++='\0';
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if (*(pattern+1)!='\0')
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*ptr++='\t';
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break;
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default:
|
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*ptr++=*pattern;
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} /* switch */
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pattern++;
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} /* while */
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|
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assert((int)(ptr-buffer)==*repl_length);
|
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return buffer;
|
|
}
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|
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static void strreplace(char *dest,char *replace,int sub_length,int repl_length,int dest_length)
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|
{
|
|
int offset=sub_length-repl_length;
|
|
if (offset>0) { /* delete a section */
|
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memmove(dest,dest+offset,dest_length-offset);
|
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memset(dest+dest_length-offset,0xcc,offset); /* not needed, but for cleanlyness */
|
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} else if (offset<0) { /* insert a section */
|
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memmove(dest-offset, dest, dest_length);
|
|
} /* if */
|
|
memcpy(dest, replace, repl_length);
|
|
}
|
|
|
|
/* stgopt
|
|
*
|
|
* Optimizes the staging buffer by checking for series of instructions that
|
|
* can be coded more compact. The routine expects the lines in the staging
|
|
* buffer to be separated with '\n' and '\0' characters.
|
|
*
|
|
* The longest sequences should probably be checked first.
|
|
*/
|
|
|
|
static void stgopt(char *start,char *end)
|
|
{
|
|
char symbols[MAX_OPT_VARS][MAX_ALIAS+1];
|
|
int seq,match_length,repl_length;
|
|
int matches;
|
|
char *debut=start;
|
|
|
|
assert(sequences!=NULL);
|
|
/* do not match anything if debug-level is maximum */
|
|
if ((sc_debug & sNOOPTIMIZE)==0 && sc_status==statWRITE) {
|
|
do {
|
|
matches=0;
|
|
start=debut;
|
|
while (start<end) {
|
|
seq=0;
|
|
while (sequences[seq].find!=NULL) {
|
|
assert(seq>=0);
|
|
if (matchsequence(start,end,sequences[seq].find,symbols,&match_length)) {
|
|
char *replace=replacesequence(sequences[seq].replace,symbols,&repl_length);
|
|
/* If the replacement is bigger than the original section, we may need
|
|
* to "grow" the staging buffer. This is quite complex, due to the
|
|
* re-ordering of expressions that can also happen in the staging
|
|
* buffer. In addition, it should not happen: the peephole optimizer
|
|
* must replace sequences with *shorter* sequences, not longer ones.
|
|
* So, I simply forbid sequences that are longer than the ones they
|
|
* are meant to replace.
|
|
*/
|
|
assert(match_length>=repl_length);
|
|
if (match_length>=repl_length) {
|
|
strreplace(start,replace,match_length,repl_length,(int)(end-start));
|
|
end-=match_length-repl_length;
|
|
free(replace);
|
|
code_idx-=sequences[seq].savesize;
|
|
seq=0; /* restart search for matches */
|
|
matches++;
|
|
} else {
|
|
/* actually, we should never get here (match_length<repl_length) */
|
|
assert(0);
|
|
seq++;
|
|
} /* if */
|
|
} else {
|
|
seq++;
|
|
} /* if */
|
|
} /* while */
|
|
assert(sequences[seq].find==NULL);
|
|
start += strlen(start) + 1; /* to next string */
|
|
} /* while (start<end) */
|
|
} while (matches>0);
|
|
} /* if ((sc_debug & sNOOPTIMIZE)==0 && sc_status==statWRITE) */
|
|
|
|
for (start=debut; start<end; start+=strlen(start)+1)
|
|
filewrite(start);
|
|
}
|
|
|
|
#undef SCPACK_TABLE
|