Fix invalid references

This commit is contained in:
Alexander Bantyev 2020-06-08 19:32:12 +03:00
parent 1c5ea4b3f2
commit ed3f2dcbff
Signed by: balsoft
GPG Key ID: E081FF12ADCB4AD5
9 changed files with 12 additions and 12 deletions

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@ -6,7 +6,7 @@ title: Documentation and releases
## Documentation
If you'd like to contribute to the docs you can find them at [`gitlab-pages/docs`]() in raw markdown form.
If you'd like to contribute to the docs you can find them at `gitlab-pages/docs` in raw markdown form.
Deployment of the docs/website for LIGO is taken care of within the CI, from `dev` and `master` branches.
## Releases & versioning

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@ -102,7 +102,7 @@ What's going on is similar to the last program: `expect_eq_evaluate` runs a prog
For example, once the program stops running the value of `address` is `"tz1KqTpEZ7Yob7QbPE4Hy4Wo8fHG8LhKxZSx"`. The *comparison*, however, is made to a constructed expression.
Remember that we're testing from OCaml, but the program is written and evaluated as LIGO. In order to provide a proper comparison, we convert our expected test values into LIGO expressions and data. Constructors such as `e_list` and `e_address` provide a bridge between LIGO and OCaml. Their definitions can be found in files such as [src/stages/ast_core/combinators.ml](https://gitlab.com/ligolang/ligo/blob/dev/src/stages/ast_core/combinators.ml), or using [Merlin's definition point finder](https://github.com/ocaml/merlin/wiki). These same functions are used during the simplification stage of LIGO compilation, so becoming familiar with them will help prepare you to work on the [front end](contributors/big-picture/front-end/).
Remember that we're testing from OCaml, but the program is written and evaluated as LIGO. In order to provide a proper comparison, we convert our expected test values into LIGO expressions and data. Constructors such as `e_list` and `e_address` provide a bridge between LIGO and OCaml. Their definitions can be found in files such as [src/stages/ast_core/combinators.ml](https://gitlab.com/ligolang/ligo/blob/dev/src/stages/ast_core/combinators.ml), or using [Merlin's definition point finder](https://github.com/ocaml/merlin/wiki). These same functions are used during the simplification stage of LIGO compilation, so becoming familiar with them will help prepare you to work on the [front end](big-picture/front-end.md).
## How To Write A Test For LIGO

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@ -127,7 +127,7 @@ in CameLIGO. While this approach is faithful to the original OCaml,
it is costlier in Michelson than naive function execution accepting
multiple arguments. Instead, for most functions with more than one
parameter, we should gather the arguments in a
[tuple](language-basics/sets-lists-tuples.md) and pass the tuple in as
[tuple](sets-lists-tuples.md) and pass the tuple in as
a single parameter.
Here is how you define a basic function that accepts two integers and

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@ -25,7 +25,7 @@ Like records, tuple components can be of arbitrary types.
### Defining Tuples
Unlike [a record](language-basics/maps-records.md), tuple types do not
Unlike [a record](maps-records.md), tuple types do not
have to be defined before they can be used. However below we will give
them names by *type aliasing*.
@ -110,7 +110,7 @@ of the tuple.
### Accessing Components
Accessing the components of a tuple in OCaml is achieved by
[pattern matching](language-basics/unit-option-pattern-matching.md). LIGO
[pattern matching](unit-option-pattern-matching.md). LIGO
currently supports tuple patterns only in the parameters of functions,
not in pattern matching. However, we can access components by their
position in their tuple, which cannot be done in OCaml. *Tuple

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@ -11,7 +11,7 @@ import SyntaxTitle from '@theme/SyntaxTitle';
A lazily deserialized map that's intended to store large amounts of data.
Lazily means that storage is read or written per key on demand. Therefore
there are no `map`, `fold`, and `iter` operations as in
[Map](./map-reference).
[Map](map.md).
The gas costs of big maps are higher than standard maps as data is lazily
deserialized.

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@ -143,7 +143,7 @@ val fold : ('accumulator -> 'item -> 'accumulator) -> 'item list -> 'accumulator
let fold: ((('accumulator, 'item) => 'accumulator), list('item), 'accumulator) => 'accumulator
</SyntaxTitle>
[Fold over items in a list](../language-basics/sets-lists-tuples#folded-operation-over-lists);
[Fold over items in a list](../language-basics/sets-lists-tuples.md#folded-operation-over-lists);
<Syntax syntax="pascaligo">

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@ -248,7 +248,7 @@ val fold : ('accumulator -> 'item -> 'accumulator) -> 'set list -> 'accumulator
let fold: ((('accumulator, 'item) => 'accumulator), set('item), 'accumulator) => 'accumulator
</SyntaxTitle>
[Fold over values in a set](../language-basics/sets-lists-tuples#folded-operation)
[Fold over values in a set](../language-basics/sets-lists-tuples.md#folded-operation)
<Syntax syntax="pascaligo">

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@ -4,7 +4,7 @@ title: Paying out profits from the Taco Shop
---
In the
[previous tutorial](tutorials/get-started/tezos-taco-shop-smart-contract.md)
[previous tutorial](tezos-taco-shop-smart-contract.md)
we have learnt how to setup & interact with the LIGO CLI. Followed an
implementation of a simple Taco Shop smart contract for our
entrepreneur Pedro.

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@ -67,7 +67,7 @@ current_purchase_price = max_price / available_stock
In this tutorial, we will use LIGO's dockerized version, for the sake
of simplicity. You can find the installation instructions
[here](intro/installation.md#dockerized-installation-recommended).
[here](../../intro/installation.md#dockerized-installation-recommended).
The best way to install the dockerized LIGO is as a **global
executable** through the installation script, as shown in the
@ -203,7 +203,7 @@ function main (const parameter : unit; const taco_shop_storage : taco_shop_stor
When dry-running a contract, it is crucial to provide a correct
initial storage value. In our case the storage is type-checked as
`taco_shop_storage`. Reflecting
[Pedro's daily offer](tutorials/get-started/tezos-taco-shop-smart-contract.md#daily-offer),
[Pedro's daily offer](tezos-taco-shop-smart-contract.md#daily-offer),
our storage's value will be defined as follows:
**Storage value**
@ -340,7 +340,7 @@ accessible within LIGO as `amount`.
To make sure we get paid, we will:
- calculate a `current_purchase_price` based on the
[equation specified earlier](tutorials/get-started/tezos-taco-shop-smart-contract.md#calculating-the-current-purchase-price)
[equation specified earlier](tezos-taco-shop-smart-contract.md#calculating-the-current-purchase-price)
- check if the sent `amount` matches the `current_purchase_price`:
- if not, then our contract will fail (`failwith`)
- otherwise, stock for the given `taco_kind` will be decreased and