bsip35: add definition of smaller order
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bsip-0035.md
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bsip-0035.md
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@ -155,7 +155,38 @@ filled at a less favorable price. It's the least bad compromise since it has
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the most efficiency (highest traded volume while not hard to implement) among
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the most efficiency (highest traded volume while not hard to implement) among
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the solutions.
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the solutions.
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However, when filling a small order at a less favorable price, the receiving
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The algorithm can be described as follows (sample code is
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[here](https://github.com/bitshares/bitshares-core/blob/2.0.171105a/libraries/chain/db_market.cpp#L311-L324)):
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Assuming the maker order is selling amount `X` of asset A, with price
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`maker_price = maker_b_amount / maker_a_amount`; assuming the taker is buying
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asset A with amount `Y` of asset B, with price
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`taker_price = taker_b_amount / taker_a_amount`. Anyway, since the two orders
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will be matched at maker price, the taker price doesn't matter here as long
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as it's higher than or equal to maker price. Note: currently all limit orders
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are implemented as sell limit orders, so in the example, the taker order can
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only specify amount of asset B but not amount of asset A.
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Now compare `X * maker_price` with `Y`. To be accurate (avoid rounding),
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compare `X' = X * maker_b_amount` with `Y' = Y * maker_a_amount`.
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* The best scenario is when `X' == Y'`, which means both orders can be
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completely filled at `maker_price`.
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* If `X' < Y'`, it means the maker order can be completely filled but the
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taker order can't, aka the maker order is smaller.
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In this case, maker pay amount `X` of asset A to taker, taker pay amount
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`Y" = round_down( X' / maker_a_amount )` of asset B to maker.
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Note: after rounded down, `Y"` may be smaller than the rational number
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`X * maker_price`, which means `Y" / X` may be lower than `maker_price`,
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that said, the maker order may has been filled at a less favorable price.
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* If `X' > Y'`, it means the taker order can be completely filled but the
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maker order can't, aka the taker order is smaller.
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In this case, taker pay amount `Y` of asset B to maker, maker pay amount
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`X" = round_down( Y' / maker_b_amount )` of asset A to taker.
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Note: after rounded down, `X"` may be smaller than the rational number
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`Y / taker_price`, which means `Y / X"` may be higher than `taker_price`,
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that said, the taker order may has been filled at a less favorable price.
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When filling a small order at a less favorable price, the receiving
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amount is often rounded down to zero, thus causes the something-for-nothing
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amount is often rounded down to zero, thus causes the something-for-nothing
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issue. Current code tried to solve the issue by cancelling the smaller order
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issue. Current code tried to solve the issue by cancelling the smaller order
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when it would receive nothing, but only applied this rule in a few senarios
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when it would receive nothing, but only applied this rule in a few senarios
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