314 lines
9.7 KiB
ReStructuredText
314 lines
9.7 KiB
ReStructuredText
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Write You a Forth, 0x04
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-----------------------
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:date: 2018-02-23 19:20
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:tags: wyaf, forth
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So, I lied about words being next. When I thought about it some more, what I
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really need to do is start adding the stack in and adding support for parsing
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numerics. I'll start with the stack, because it's pretty straightforward.
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I've added a new definition: ``constexpr uint8_t STACK_SIZE = 128``. This goes
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in the ``linux/defs.h``, and the ``#else`` in the top ``defs.h`` will set a
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smaller stack size for other targets. I've also defined a type called ``KF_INT``
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that, on Linux, is a ``uint32_t``::
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index 4dcc540..e070d27 100644
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--- a/defs.h
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+++ b/defs.h
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@@ -3,6 +3,9 @@
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#ifdef __linux__
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#include "linux/defs.h"
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+#else
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+typedef int KF_INT;
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+constexpr uint8_t STACK_SIZE = 16;
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#endif
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constexpr size_t MAX_TOKEN_LENGTH = 16;
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diff --git a/linux/defs.h b/linux/defs.h
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index 57cdaeb..3740f5a 100644
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--- a/linux/defs.h
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+++ b/linux/defs.h
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@@ -4,4 +4,7 @@
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#include <stddef.h>
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#include <stdint.h>
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+typedef int32_t KF_INT;
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+constexpr uint8_t STACK_SIZE = 128;
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+
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#endif
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\ No newline at end of file
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It seems useful to be able to adapt the kind of numbers supported; an AVR might do
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better with 16-bit integers, for example.
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``stack.h``
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^^^^^^^^^^^
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The stack is going to be templated, because we'll need a ``double`` stack later
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for floating point and a return address stack later. This means everything will
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go under ``stack.h``. This is a pretty simple implementation that's CS 101 material;
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I've opted to have the interface return ``bool``\ s for everything to indicate stack
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overflow and underflow and out of bounds::
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#ifndef __KF_STACK_H__
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#define __KF_STACK_H__
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#include "defs.h"
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template <typename T>
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class Stack {
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public:
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bool push(T val);
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bool pop(T &val);
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bool get(size_t, T &);
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size_t size(void) { return this->arrlen; };
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private:
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T arr[STACK_SIZE];
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size_t arrlen;
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};
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// push returns false if there was a stack overflow.
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template <typename T>
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bool
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Stack<T>::push(T val)
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{
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if ((this->arrlen + 1) > STACK_SIZE) {
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return false;
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}
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this->arr[this->arrlen++] = val;
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return true;
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}
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// pop returns false if there was a stack underflow.
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template <typename T>
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bool
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Stack<T>::pop(T &val)
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{
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if (this->arrlen == 0) {
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return false;
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}
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val = this->arr[this->arrlen - 1];
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this->arrlen--;
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}
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// get returns false on invalid bounds.
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template <typename T>
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bool
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Stack<T>::get(size_t i, T &val)
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{
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if (i > this->arrlen) {
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return false;
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}
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val = this->arr[i];
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return true;
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}
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#endif // __KF_STACK_H__
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I'll put a ``Stack<KF_INT>`` in ``kforth.cc`` later on. For now, this gives me
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an interface for the numeric parser to push a number onto the stack.
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``parse_num``
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^^^^^^^^^^^^^
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It seems like the best place for this is in ``parser.cc`` --- though I might
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move into a token processor later. The definition for this goes in ``parser.h``,
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and the body is in ``parser.cc``::
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// parse_num tries to parse the token as a signed base 10 number,
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// pushing it onto the stack if needed.
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bool
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parse_num(struct Token *token, Stack<KF_INT> &s)
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{
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KF_INT n = 0;
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uint8_t i = 0;
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bool sign = false;
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It turns out you can't parse a zero-length token as a number...
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::
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if (token->length == 0) {
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return false;
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}
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I'll need to invert the number later if it's negative, but it's worth checking
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the first character to see if it's negative.
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::
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if (token->token[i] == '-') {
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i++;
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sign = true;
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}
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Parsing is done by checking whether each character is within the range of the ASCII
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numeral values. Later on, I might add in separate functions for processing base 10
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and base 16 numbers, and decide which to use based on a prefix (like ``0x``). If the
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character is between those values, then the working number is multiplied by 10 and
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the digit added.
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::
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while (i < token->length) {
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if (token->token[i] < '0') {
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return false;
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}
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if (token->token[i] > '9') {
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return false;
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}
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n *= 10;
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n += (uint8_t)(token->token[i] - '0');
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i++;
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}
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If it was a negative number, then the working number has to be inverted::
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if (sign) {
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n *= -1;
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}
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Finally, return the result of pushing the number on the stack. One thing that
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might come back to get me later is that this makes it impossible to tell if a
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failure to parse the number is due to an invalid number or due to a stack
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overflow. This will be a good candidate for revisiting later.
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::
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return s.push(n);
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}
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``io.cc``
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^^^^^^^^^^
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Conversely, it'll be useful to write a number to an ``IO`` interface. It
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*seems* more useful right now to just provide a number → I/O function, but
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that'll be easily adapted to a number → buffer function later. This will add
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a real function to ``io.h``, which will require a corresponding ``io.cc``
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(which also needs to be added to the ``Makefile``)::
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#include "defs.h"
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#include "io.h"
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#include <string.h>
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void
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write_num(IO &interface, KF_INT n)
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{
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Through careful scientific study, I have determined that most number of digits
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that a 32-bit integer needs is 10 bytes (sans the sign!). This will absolutely
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need to be changed if ``KF_INT`` is ever moved to 64-bit (or larger!) numbers.
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There's a TODO in the actual source code that notes this. ::
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char buf[10];
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uint8_t i = 10;
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memset(buf, 0, 10);
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Because this is going out to an I/O interface, I don't need to store the sign
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in the buffer itself and can just print it and invert the number. Inverting is
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important; I ran into a bug earlier where I didn't invert it and my subtractions
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below were correspondingly off.
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::
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if (n < 0) {
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interface.wrch('-');
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n *= -1;
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}
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The buffer has to be filled from the end to the beginning to do the inverse of
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the parsing method::
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while (n != 0) {
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char ch = (n % 10) + '0';
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buf[i--] = ch;
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n /= 10;
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}
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But then it can be just dumped to the interface::
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interface.wrbuf(buf+i, 11-i);
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}
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``kforth.cc``
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^^^^^^^^^^^^^^
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And now I come to the fun part: adding the stack in. After including ``stack.h``,
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I've added a stack implementation to the top of the file::
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// dstack is the data stack.
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static Stack<KF_INT> dstack;
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It's kind of useful to be able to print the stack::
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static void
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write_dstack(IO &interface)
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{
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KF_INT tmp;
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interface.wrch('<');
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for (size_t i = 0; i < dstack.size(); i++) {
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if (i > 0) {
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interface.wrch(' ');
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}
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dstack.get(i, tmp);
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write_num(interface, tmp);
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}
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interface.wrch('>');
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}
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Surrounding the stack in angle brackets is a cool stylish sort of thing, I
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guess. All this is no good if the interpreter isn't actually hooked up to the
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number parser::
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// The new while loop in the parser function in kforth.cc:
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while ((result = parse_next(buf, buflen, &offset, &token)) == PARSE_OK) {
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interface.wrbuf((char *)"token: ", 7);
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interface.wrbuf(token.token, token.length);
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interface.wrln((char *)".", 1);
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if (!parse_num(&token, dstack)) {
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interface.wrln((char *)"failed to parse numeric", 23);
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}
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// Temporary hack until the interpreter is working further.
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if (match_token(token.token, token.length, bye, 3)) {
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interface.wrln((char *)"Goodbye!", 8);
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exit(0);
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}
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}
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But does it blend?
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^^^^^^^^^^^^^^^^^^
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Hopefully this works::
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~/code/kforth (0) $ make
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g++ -std=c++14 -Wall -Werror -g -O0 -c -o linux/io.o linux/io.cc
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g++ -std=c++14 -Wall -Werror -g -O0 -c -o io.o io.cc
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g++ -std=c++14 -Wall -Werror -g -O0 -c -o parser.o parser.cc
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g++ -std=c++14 -Wall -Werror -g -O0 -c -o kforth.o kforth.cc
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g++ -o kforth linux/io.o io.o parser.o kforth.o
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~/code/kforth (0) $ ./kforth
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kforth interpreter
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<>
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? 2 -2 30 1000 -1010
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token: 2.
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token: -2.
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token: 30.
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token: 1000.
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token: -1010.
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ok.
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<2 -2 30 1000 -1010>
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? bye
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token: bye.
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failed to parse numeric
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Goodbye!
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~/code/kforth (0) $
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So there's that. Okay, next time *for real* I'll do a vocabulary thing.
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