caiyu/solvespace
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Add a little parser, that takes a string and generates and Expr *

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syntax tree. That's what I'll used for entered dimensions, and
algebraic constraints and such. Needs to be extended to handle
stuff like points and entities, but I think that it can be.

[git-p4: depot-paths = "//depot/solvespace/": change = 1669]
This commit is contained in:
Jonathan Westhues 2008-04-16 22:42:32 -08:00
parent 22302dca7a
commit 1fa7865024
5 changed files with 262 additions and 9 deletions
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2
Makefile
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@ -1,5 +1,5 @@
DEFINES = /D_WIN32_WINNT=0x500 /DISOLATION_AWARE_ENABLED /D_WIN32_IE=0x500 /DWIN32_LEAN_AND_MEAN /DWIN32
CFLAGS = /W3 /nologo -I..\common\win32 /O2 /D_DEBUG /D_CRT_SECURE_NO_WARNINGS /Zi /I.
CFLAGS = /W3 /nologo -I..\common\win32 /O2 /D_DEBUG /D_CRT_SECURE_NO_WARNINGS /Zi /I. /EHs
HEADERS = ..\common\win32\freeze.h ui.h solvespace.h dsc.h sketch.h expr.h

228
expr.cpp
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@ -93,16 +93,24 @@ char *Expr::Print(void) {
}
void Expr::PrintW(void) {
char c;
switch(op) {
case PARAM: App("(param %08x)", x.parh.v); break;
case PARAM_PTR: App("(paramp %08x)", x.parp->h.v); break;
case PARAM: App("param(%08x)", x.parh.v); break;
case PARAM_PTR: App("param(p%08x)", x.parp->h.v); break;
case CONSTANT: App("%.3f", x.v);
case CONSTANT: App("%.3f", x.v); break;
case PLUS: App("(+ "); a->PrintW(); b->PrintW(); App(")"); break;
case MINUS: App("(- "); a->PrintW(); b->PrintW(); App(")"); break;
case TIMES: App("(* "); a->PrintW(); b->PrintW(); App(")"); break;
case DIV: App("(/ "); a->PrintW(); b->PrintW(); App(")"); break;
case PLUS: c = '+'; goto p;
case MINUS: c = '-'; goto p;
case TIMES: c = '*'; goto p;
case DIV: c = '/'; goto p;
p:
App("(");
a->PrintW();
App(" %c ", c);
b->PrintW();
App(")");
break;
case NEGATE: App("(- "); a->PrintW(); App(")"); break;
case SQRT: App("(sqrt "); a->PrintW(); App(")"); break;
@ -114,3 +122,209 @@ void Expr::PrintW(void) {
}
}
#define MAX_UNPARSED 1024
static Expr *Unparsed[MAX_UNPARSED];
static int UnparsedCnt, UnparsedP;
static Expr *Operands[MAX_UNPARSED];
static int OperandsP;
static Expr *Operators[MAX_UNPARSED];
static int OperatorsP;
void Expr::PushOperator(Expr *e) {
if(OperatorsP >= MAX_UNPARSED) throw "operator stack full!";
Operators[OperatorsP++] = e;
}
Expr *Expr::TopOperator(void) {
if(OperatorsP <= 0) throw "operator stack empty (get top)";
return Operators[OperatorsP-1];
}
Expr *Expr::PopOperator(void) {
if(OperatorsP <= 0) throw "operator stack empty (pop)";
return Operators[--OperatorsP];
}
void Expr::PushOperand(Expr *e) {
if(OperandsP >= MAX_UNPARSED) throw "operand stack full";
Operands[OperandsP++] = e;
}
Expr *Expr::PopOperand(void) {
if(OperandsP <= 0) throw "operand stack empty";
return Operands[--OperandsP];
}
Expr *Expr::Next(void) {
if(UnparsedP >= UnparsedCnt) return NULL;
return Unparsed[UnparsedP];
}
void Expr::Consume(void) {
if(UnparsedP >= UnparsedCnt) throw "no token to consume";
UnparsedP++;
}
int Expr::Precedence(Expr *e) {
if(e->op == ALL_RESOLVED) return -1; // never want to reduce this marker
if(e->op != BINARY_OP && e->op != UNARY_OP) oops();
switch(e->x.c) {
case 's':
case 'n': return 30;
case '*':
case '/': return 20;
case '+':
case '-': return 10;
default: oops();
}
}
void Expr::Reduce(void) {
Expr *a, *b;
Expr *op = PopOperator();
Expr *n;
int o;
switch(op->x.c) {
case '+': o = PLUS; goto c;
case '-': o = MINUS; goto c;
case '*': o = TIMES; goto c;
case '/': o = DIV; goto c;
c:
b = PopOperand();
a = PopOperand();
n = a->AnyOp(o, b);
break;
case 'n': n = PopOperand()->Negate(); break;
case 's': n = PopOperand()->Sqrt(); break;
default: oops();
}
PushOperand(n);
}
void Expr::ReduceAndPush(Expr *n) {
while(Precedence(n) <= Precedence(TopOperator())) {
Reduce();
}
PushOperator(n);
}
void Expr::Parse(void) {
Expr *e = AllocExpr();
e->op = ALL_RESOLVED;
PushOperator(e);
for(;;) {
Expr *n = Next();
if(!n) throw "end of expression unexpected";
if(n->op == CONSTANT) {
PushOperand(n);
Consume();
} else if(n->op == PAREN && n->x.c == '(') {
Consume();
Parse();
n = Next();
if(n->op != PAREN || n->x.c != ')') throw "expected: )";
Consume();
} else if(n->op == UNARY_OP) {
PushOperator(n);
Consume();
continue;
} else if(n->op == BINARY_OP && n->x.c == '-') {
// The minus sign is special, because it might be binary or
// unary, depending on context.
n->op = UNARY_OP;
n->x.c = 'n';
PushOperator(n);
Consume();
continue;
} else {
throw "expected expression";
}
n = Next();
if(n && n->op == BINARY_OP) {
ReduceAndPush(n);
Consume();
} else {
break;
}
}
while(TopOperator()->op != ALL_RESOLVED) {
Reduce();
}
PopOperator(); // discard the ALL_RESOLVED marker
}
void Expr::Lex(char *in) {
while(*in) {
if(UnparsedCnt >= MAX_UNPARSED) throw "too long";
char c = *in;
if(isdigit(c) || c == '.') {
// A number literal
char number[70];
int len = 0;
while((isdigit(*in) || *in == '.') && len < 30) {
number[len++] = *in;
in++;
}
number[len++] = '\0';
Expr *e = AllocExpr();
e->op = CONSTANT;
e->x.v = atof(number);
Unparsed[UnparsedCnt++] = e;
} else if(isalpha(c) || c == '_') {
char name[70];
int len = 0;
while(isforname(*in) && len < 30) {
name[len++] = *in;
in++;
}
name[len++] = '\0';
Expr *e = AllocExpr();
if(strcmp(name, "sqrt")==0) {
e->op = UNARY_OP;
e->x.c = 's';
} else {
throw "unknown name";
}
Unparsed[UnparsedCnt++] = e;
} else if(strchr("+-*/()", c)) {
Expr *e = AllocExpr();
e->op = (c == '(' || c == ')') ? PAREN : BINARY_OP;
e->x.c = c;
Unparsed[UnparsedCnt++] = e;
in++;
} else if(isspace(c)) {
// Ignore whitespace
in++;
} else {
// This is a lex error.
throw "unexpected characters";
}
}
}
Expr *Expr::FromString(char *in) {
UnparsedCnt = 0;
OperandsP = 0;
OperatorsP = 0;
Expr *r;
try {
Lex(in);
Parse();
r = PopOperand();
} catch (char *e) {
dbp("exception: parse/lex error: %s", e);
return NULL;
}
return r;
}

35
expr.h
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@ -28,6 +28,16 @@ public:
static const int SIN = 107;
static const int COS = 108;
// Special helpers for when we're parsing an expression from text.
// Initially, literals (like a constant number) appear in the same
// format as they will in the finished expression, but the operators
// are different until the parser fixes things up (and builds the
// tree from the flat list that the lexer outputs).
static const int ALL_RESOLVED = 1000;
static const int PAREN = 1001;
static const int BINARY_OP = 1002;
static const int UNARY_OP = 1003;
int op;
Expr *a;
Expr *b;
@ -37,6 +47,9 @@ public:
Param *parp;
hPoint point;
hEntity entity;
// For use while parsing
char c;
} x;
static Expr *FromParam(hParam p);
@ -62,6 +75,28 @@ public:
void App(char *str, ...);
char *Print(void);
void PrintW(void); // worker
// Make a copy of an expression that won't get blown away when we
// do a FreeAllExprs()
Expr *Keep(void);
static Expr *FromString(char *in);
static void Lex(char *in);
static Expr *Next(void);
static void Consume(void);
static void PushOperator(Expr *e);
static Expr *PopOperator(void);
static Expr *TopOperator(void);
static void PushOperand(Expr *e);
static Expr *PopOperand(void);
static void Reduce(void);
static void ReduceAndPush(Expr *e);
static int Precedence(Expr *e);
static int Precedence(int op);
static void Parse(void);
};
#endif

3
solvespace.h
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@ -12,7 +12,10 @@
#define max(x, y) ((x) > (y) ? (x) : (y))
#endif
#define isforname(c) (isalnum(c) || (c) == '_' || (c) == '-' || (c) == '#')
#include <stdlib.h>
#include <ctype.h>
#include <string.h>
#include <stdio.h>
#include <math.h>

3
textwin.cpp
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@ -205,7 +205,8 @@ void TextWindow::ShowHeader(void) {
SS.GW.EnsureValidActiveGroup();
if(SS.GW.pendingDescription) {
Printf("");
Printf(" %C4 group:%s",
SS.group.FindById(SS.GW.activeGroup)->DescriptionString());
} else {
// Navigation buttons
Printf(" %Lb%f<<%E %Lh%fhome%E %C4 group:%s",